Category: animal Ebola transmission


It’s all scripted! Ebola outbreak and impossibly rapid vaccine response clearly scripted; U.S. govt. patented Ebola in 2010 and now owns all victims’ blood


It’s all scripted! Ebola outbreak

and impossibly rapid vaccine

response clearly scripted; U.S.

govt. patented Ebola in 2010

and now owns all victims’ blood

September 21, 2014 2:39 pm EST

By Mike Adams | Natural News

On the very same day that vaccine maker GlaxoSmithKline is being fined $490 million by Chinese authorities for running an illegal bribery scheme across China [3], the media is announcing the “astonishing” launch of human trials for an Ebola vaccine.

Care to guess who will be manufacturing this vaccine once it is whitewashed and rubber-stamped as “approved?” GlaxoSmithKline, of course. The same company that also admitted to a massive criminal bribery network in the United States, where felony crimes were routinely committed to funnel money to over 40,000 physicians who pushed dangerous prescription drugs onto patients.

This is the company that is now — today! — injecting 60 “volunteers” with an experimental Ebola vaccine.

Spontaneous vaccine development a scientific impossibility

“Normally it would take years of human trials before a completely new vaccine was approved for use,” reports the BBC. [1] “But such is the urgency of the Ebola outbreak in west Africa that this experimental vaccine is being fast tracked at an astonishing rate.”

Yes, it’s astonishing because it’s impossible.

As any vaccine-related virologist already knows, the process of going from an in-the-wild infection of Ebola to a manufactured vaccine ready for human trials simply cannot be achieved in a matter of a few weeks or months. Apparently, we are all to believe that a spontaneous scientific miracle has now taken place — a literal act of vaccine magic — which has allowed the criminal vaccine industry to skip the tedious R&D phases and create a vaccine ready for human trials merely by waving a magic wand.

“The first of 60 healthy volunteers will be injected with the vaccine,” says the BBC today, and vaccine pushers are of course lining up to proclaim the vaccine miracle which has spontaneously appeared before them like a burning bush:

Professor Adrian Hill, director of the Jenner Institute in Oxford, who is leading the trial, said: “This is a remarkable example of how quickly a new vaccine can be progressed into the clinic, using international co-operation.”

Near-proof that this was all scripted

The far more likely explanation, of course, is that all this was scripted in advance: the outbreak, the international cry for help, the skyrocketing of the stock price for Tekmira (which has received financial investments from Monsanto), the urgent call for a vaccine and now the spontaneous availability of human vaccine trials. It’s all beautifully scripted from start to finish, better than a Shakespearean tragedy played out on the international stage.

The “heroes” of this theater have been pre-ordained to be drug companies and vaccines, and it is already written in the script that vaccines will be heralded as lifesaving miracles of modern science even if they infect people and cause widespread damage as has now happened to young girls in Colombia who are being hospitalized en masse after being injected with HPV vaccines. [2]

Incredibly, the official response from vaccine-pushing health authorities in Colombia is that all these girls who are suffering from paralysis are merely “imagining” their symptoms and suffering from “mass hysteria.” Obviously, if vaccines are created by the gods of modern science — the new cult of our delusional world — then they must be perfect and infallible. Therefore, anyone who suffers side effects of such perfect vaccines must obviously be imagining things. Such is the delusional dogma of modern vaccine pushers.

This will be the exact same explanation leveled against anyone who suffers harmful effects from an Ebola vaccine, too. After all, the discovery of vaccine side effects simply isn’t in the script being played out before us. Therefore, it cannot be allowed, and any person who actually suffers side effects will be immediately deemed to be mentally ill. (Yes, this is how insane and Orwellian the vaccine industry has become. All who do now bow down to the voodoo of dangerous vaccines are labeled mental patients and then treated with psychiatric drugs. The vaccine industry has quite literally become the Heaven’s Gate Cult of modern medicine…)

The United States government now owns the patent on Ebola

This plot gets even more interesting when you realize that a patent on Ebola was awarded to the United States government just four years ago, in 2010.

That patent, number CA2741523A1, is available here.

Astonishingly, the patent claims U.S. government ownership over all variants of Ebola which share 70% or more of the protein sequences described in the patent: “[CLAIMS] …a nucleotide sequence of at least 70%-99% identity to the SEQ ID…”

Furthermore, the patent also claims ownership over any and all Ebola viruses which are “weakened” or “killed,” meaning the United States government is literally claiming ownership over all Ebola vaccines.

What this means, of course, is that the U.S. government can demand royalties on all Ebola vaccines.

Even more Orwellian is the fact that the U.S. government can use this patent to halt all other research for treatments or cures for Ebola.

Patent monopoly gives U.S. government legal right to block all non-vaccine Ebola treatments, cures or research

Do you remember the massive medical controversy over the BRCA1 gene tied to breast cancer in women? One corporation claimed patent ownership over the gene and then they used that patent to shut down all other research, testing or diagnosis of breast cancer related to that gene. To date, nearly 20% of the human genome has been claimed as “owned” by corporations, universities and even the government.

The controversy went all the way to the U.S. Supreme Court which ultimately ruled that human genes cannot be patented. But the Supreme Court decision actually protected patents on gene sequences for viruses and other pathogens.

The truth of the matter is that anyone who owns the Ebola gene patent can legally use that patent to shut down all research on Ebola, including research for non-vaccine medical treatments and cures. This is how medical monopolies are reinforced: by monopolizing all the research and all the “cures.”

Even more frightening, the “ownership” over Ebola extends to Ebola circulating in the bodies of Ebola victims. When Dr. Kent Brantly was relocated from Africa to the CDC’s care in Atlanta, that entire scene was carried out under the quasi-legal justification that the U.S. government “owned” the Ebola circulating in Dr. Brantly’s blood. Thus, one of the very first things that took place was the acquisition of his blood samples for archiving and R&D by the CDC and the U.S. Department of Defense.

(Only the gullible masses think that was about saving the life of a doctor. The real mission was to acquire the Ebola strain circulating in his body and use it for weaponization research, vaccine research and other R&D purposes.)

Anyone infected with Ebola now deemed to be carrying “government property” in the form of a patented virus

This brings us to the quarantine issue. As the whole world knows by now, the entire nation of Sierra Leone is now under a state of medical martial law, where Ebola victims are now being hunted down like fugitives in door-to-door manhunts. [4]

Simultaneously, the United States government is now operating under Obama’s executive order #13674, signed on July 31, 2014, which allows the U.S. federal government to arrest and quarantine any person who shows symptoms of infectious disease. [5]

This executive order allows federal agents to forcibly arrest and quarantine anyone showing symptoms of:

…Severe acute respiratory syndromes, which are diseases that are associated with fever and signs and symptoms of pneumonia or other respiratory illness, are capable of being transmitted from person to person, and that either are causing, or have the potential to cause, a pandemic, or, upon infection, are highly likely to cause mortality or serious morbidity if not properly controlled.

Part of the legal argument for justifying such a quarantine in the case of Ebola goes like this: If you are carrying Ebola in your body, then you are in possession of U.S. government property!

The fact that the virus is replicating in your body is, legally speaking, a violation of patent law. Because you are providing a host environment for the replication of the virus, you technically are breaking federal laws that restrict the copying and distributed of patented properties, which in this case include the Ebola virus.

Thus, the government has every right to “relocate” you and prevent you from violating patent law by replicating, distributing or spreading THEIR intellectual property (i.e. the Ebola virus).

Lest you think this legal argument sounds insane, just remember that the legal system is full of lawyers who make far more insane arguments on a daily basis, including the argument that human genes could be patented in the first place. And medical officials also make insane, irrational arguments almost constantly, including the argument that all those girls in Colombia who are suffering convulsions and paralysis from the HPV vaccine are merely “imagining” their symptoms. Such explanations flatly defy any attachment to sane thinking.

Ultimately, the patent on the Ebola virus provides the legal justification for forced government quarantines — and even medical research — on Ebola victims.

“Ebola is a genetically modified organism”

What I’ve outlined in this story is just a small taste of the crime against humanity which is taking place right before our eyes. I am now convinced that this Ebola outbreak is very likely not an accident, and many scientists in Africa wholeheartedly agree that the outbreak is actually the deployment of a biological weapon.

“Ebola is a genetically modified organism (GMO),” declared Dr. Cyril Broderick, Professor of Plant Pathology, in a front-page story published in the Liberian Observer. [6]

He goes on to explain:

[Horowitz] confirmed the existence of an American Military-Medical-Industry that conducts biological weapons tests under the guise of administering vaccinations to control diseases and improve the health of “black Africans overseas.”

SITES AROUND AFRICA, AND IN WEST AFRICA, HAVE OVER THE YEARS BEEN SET UP FOR TESTING EMERGING DISEASES, ESPECIALLY EBOLA

The World Health Organization (WHO) and several other UN Agencies have been implicated in selecting and enticing African countries to participate in the testing events, promoting vaccinations, but pursuing various testing regiments.

AFRICAN LEADERS AND AFRICAN COUNTRIES NEED TO TAKE THE LEAD IN DEFENDING BABIES, CHILDREN, AFRICAN WOMEN, AFRICAN MEN, AND THE ELDERLY. THESE CITIZENS DO NOT DESERVE TO BE USED AS GUINEA PIGS!

Africa must not relegate the Continent to become the locality for disposal and the deposition of hazardous chemicals, dangerous drugs, and chemical or biological agents of emerging diseases. There is urgent need for affirmative action in protecting the less affluent of poorer countries, especially African citizens, whose countries are not as scientifically and industrially endowed as the United States and most Western countries, sources of most viral or bacterial GMOs that are strategically designed as biological weapons. It is most disturbing that the U. S. Government has been operating a viral hemorrhagic fever bioterrorism research laboratory in Sierra Leone.

The world must be alarmed. All Africans, Americans, Europeans, Middle Easterners, Asians, and people from every conclave on Earth should be astonished. African people, notably citizens more particularly of Liberia, Guinea and Sierra Leone are victimized and are dying every day.

Learn the truth at BioDefense.com

If you really want to learn the truth about all this, listen to the free Pandemic Preparedness audio course available right now at www.BioDefense.com

All MP3 files are freely downloadable, and new episodes are being posted every few days.

Also check out these 11 horrifying truths about Ebola that you’re not supposed to know.

Nearly one million people have now visited www.BioDefense.com since its launch last week. Find out there what the mainstream media won’t dare tell you. Your life may quite literally depend on it.

Sources for this article include:
[1] http://www.bbc.com/news/health-29230157

[2] http://news.yahoo.com/mystery-illness-plague…

[3] http://www.bbc.com/news/business-29274822

[4] http://www.naturalnews.com/046945_medical_ma…

[5] http://www.federalregister.gov/articles/2014…

[6] http://www.liberianobserver.com/security/ebo…

[7] http://www.google.com/patents/CA2741523A1

[8] http://www.naturalnews.com/036417_Glaxo_Merc…

[9] http://www.naturalnews.com/046259_ebola_outb…

[10] http://www.naturalnews.com/040400_gene_paten…

[11] http://www.naturalnews.com/028492_BRCA1_huma…

[12] http://www.thecommonsenseshow.com/2014/09/17…

This article originally appeared on Natural News.

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U.S. Army: Ebola Goes Airborne Once Temperature Drops
Ebola can go airborne but hasn’t in West Africa because it’s too warm, researchers conclude

U.S. Army: Ebola Goes Airborne Once Temperature Drops

Image Credits: Adam Isserlis / Flickr (City background)

by Kit Daniels | Infowars.com | October 24, 2014

Ebola can spread by air in cold, dry weather common to the U.S. but not West Africa, presenting a “possible, serious threat” to the public, according to two studies by U.S. Army scientists.

After successfully exposing monkeys to airborne Ebola, which “caused a rapidly fatal disease in 4-5 days,” scientists with the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID) concluded Ebola can spread through air but likely hasn’t in Equatorial Africa because the region is too warm, with temperatures rarely dropping below 65°F.

“We… demonstrated aerosol transmission of Ebola virus at lower temperature and humidity than that normally present in sub-Saharan Africa,” the 1995 study entitled Lethal Experimental Infections of Rhesus Monkeys by Aerosolized Ebola Virus reported. “Ebola virus sensitivity to the high temperatures and humidity in the thatched, mud, and wattle huts shared by infected family members in southern Sudan and northern Zaire may have been a factor limiting aerosol transmission of Ebola virus in the African epidemics.”

“Both elevated temperature and relative humidity have been shown to reduce the aerosol stability of viruses.”

1995study1

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The study also referred to the 1989 Ebola outbreak at a primate quarantine facility in Reston, Va., in which the virus rapidly spread between unconnected rooms.

“While infections in adjacent cages may have occurred by droplet contact, infections in distant cages suggests aerosol transmission, as evidence of direct physical contact with an infected source could not be established,” the study added.

It is interesting to note this outbreak occurred in December 1989, when temperatures in Reston were usually below freezing, and it’s unlikely the indoor temperature in the vast quarantine facility was much higher.

The tropical climates of the world, including the Ebola hot zone of West Africa but obviously excluding the U.S. and Europe, which have also had cases of Ebola.

The tropical climates of the world, including the Ebola hot zone of West Africa but obviously excluding the U.S. and Europe, which have also had cases of Ebola. Credit: Me ne frego / Wiki

A 2012 study also by the USAMRIID, which exposed monkeys to an airborne filovirus similar to Ebola, reached a similar conclusion to the 1995 study.

“There is no strong evidence of secondary transmission by the aerosol route in African filovirus outbreaks; however, aerosol transmission is thought to be possible and may occur in conditions of lower temperature and humidity which may not have been factors in outbreaks in warmer climates,” the study entitled A Characterization of Aerosolized Sudan Virus Infection in African Green Monkeys, Cynomologus Macaques and Rhesus Macaques stated.

The study pointed out that filoviruses, which include Ebola and the Sudan virus used in this particular study, have stability in aerosol form comparable to influenza.

“Filoviruses in aerosol form are therefore considered a possible, serious threat to the health and safety of the public,” it added.

1021142012page1

And the Pentagon took this threat of airborne filoviruses so seriously that it organized a Filovirus Medical Countermeasures Workshop with the Department of Health and Human Services in 2013.

“The DoD seeks a trivalent filovirus vaccine that is effective against aerosol exposure and protective against filovirus disease for at least one year,” the executive summary of the workshop stated.

The Pentagon’s concern with airborne Ebola runs contrary to health officials who claim the disease can’t spread through coughing and sneezing, but according to the Army studies, that may only be true in tropical climates.

“How much airborne transmission will occur will be a function of how well Ebola induces coughing and sneezing in its victims in cold weather climates,” the web site potrblog.com suggested. “Coughing and nasal bleeding are both reported symptoms in Africa, so the worst should be expected.”


Man who brought Ebola to US facing prosecution

By Chris Perez and Joe Tacopino

October 2, 2014 | 1:25pm

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Liberian authorities say they will prosecute Eric Duncan (inset) for lying on his airport health questionnaire. Photo: AP, Facebook (inset)

The man who brought Ebola into the United States lied on his exit form so he could leave Liberia — and now authorities in the West African nation want to prosecute him if he returns, government officials said Thursday.

As the deadly virus sweeps across West Africa, people leaving all nations in the region have been required to be screened for fever and have also been questioned about exposure to infected patients.

The Red Cross delivers supplies to the quarantined family of Eric Duncan in Dallas.Photo: James Breeden/Splash News

Thomas Eric Duncan — who is in serious but stable condition at Texas Health Presbyterian Hospital — had been staying in Monrovia before flying to visit with relatives in Dallas.

Children disembark from a school bus in Dallas.Photo: Reuters

On the form, Duncan answered “No” in the portion that asked if he had been in contact with anyone who had contracted Ebola, according to a questionnaire obtained by The Associated Press.

It was reported Thursday that Duncan had helped a 19-year-old pregnant woman in Monrovia to an ambulance. She ended up dying from the virus.

Her brother, 21-year-old Sonny Boy, also helped carry his sister and later became ill — eventually dying on his way to the hospital for treatment.

Duncan was screened and cleared for travel before flying out of Liberia, Director of the Centers for Disease Control and Prevention Tom Frieden said during a media briefing Thursday.

Duncan had his temperature taken by a trained CDC individual with an approved thermometer — recording a temperature of 97.3, Frieden said.

Dr. Gil Mobley, a Missouri doctor, checked in and boarded a plane dressed in full protective gear.Photo: AP

“The individual did not have a fever,” he said. “The status of his possible exposures prior to departure is being investigated further.”

Frieden added that the CDC — with help from Liberian authorities — were the ones who actually created the official exit form used at West African airports. Frieden said Duncan may have had no clue how serious his exposure was at the time of his departure.

Liberia Airport Authority’s chairman of the board of directors said Duncan would be prosecuted immediately upon returning to the West African nation.

Texas is now monitoring more than 100 people for the Ebola virus, health officials told The Post on Thursday.

Man who brought Ebola to US facing prosecution

“This situation is constantly evolving,” Dallas County Health and Human Services spokeswoman Erikka Neroes told The Post. “No one is symptomatic, and we are doing everything within our power and our procedures to maintain this.”

Twelve to 18 people came in contact with Duncan while he displayed symptoms, Neroes said.


There Will Be Pestilences:
Why Are So
Many Deadly Diseases Breaking Out All
Over The Globe Right Now?
So why is this happening?

There Will Be Pestilences: Why Are So Many Deadly Diseases Breaking Out All Over The Globe Right Now?

by Michael Snyder | Economic Collapse | October 7, 2014

 

Ebola, Marburg, Enterovirus and Chikungunya – these diseases were not even on the radar of most people coming into 2014, but now each one of them is making headline news.  So why is this happening?  Why are so many deadly diseases breaking out all over the world right now?  Is there some kind of a connection, or is the fact that so many horrible diseases are arising all at once just a giant coincidence?  And this could be just the beginning.  For example, there are now more than a million cases of Chikungunya in Central and South America, and authorities are projecting that there will be millions more in 2015.  The number of Ebola cases continues to grow at an exponential rate, and now an even deadlier virus (Marburg) has broken out in Uganda.  We have gone decades without experiencing a major worldwide pandemic, and many people believed that it could never happen in our day and time.  But now we could potentially see several absolutely devastating diseases all racing across the planet at the same time.

On Monday, we got news that the first confirmed case of Ebola transmission in Europe has happened.  A nurse in Spain that had treated a couple of returning Ebola patients has contracted the disease herself

A nurse’s assistant in Spain is the first person known to have contracted Ebola outside of Africa in the current outbreak.

Spanish Health Minister Ana Mato announced Monday that a test confirmed the assistant has the virus.

The woman helped treat a Spanish missionary and a Spanish priest, both of whom had contracted Ebola in West Africa. Both died after returning to Spain.

Health officials said she developed symptoms on September 30. She was not hospitalized until this week. Her only symptom was a fever.

How many people did she spread the virus to before it was correctly diagnosed?

Meanwhile, Ebola continues to rage out of control in West Africa.  It is being reported that Sierra Leone just added 121 new Ebola deaths to the overall death toll in a single day.  If Ebola continues to spread at an exponential rate, it is inevitable that more people will leave West Africa with the virus and take it to other parts of the globe.

In fact, it was being reported on Monday that researchers have concluded that there is “a 50 percent chance” that Ebola could reach the UK by October 24th…

Experts have analyzed the pattern of the spread of the disease, along with airline traffic data, to make the startling prediction Ebola could reach Britain by October 24.

They claim there is a 50 percent chance the virus could hit Britain by that date and a 75 percent chance the it could be imported to France, as the deadliest outbreak in history spreads across the world.

Currently, there is no cure for the disease, which has claimed more than 3,400 lives since March and has a 90 percent fatality rate.

I have written extensively about Ebola, but it is certainly not the only virus making headlines right now.

Down in Uganda, a man has just died from a confirmed case of the Marburg Virus…

A man has died in Uganda’s capital after an outbreak of Marburg, a highly infectious hemorrhagic fever similar to Ebola, authorities said on Sunday, adding that a total of 80 people who came into contact with him had been put under quarantine.

Marburg starts with a severe headache followed by haemorrhaging and leads to death in 80% or more of cases in about nine days. It is from the same family of viruses as Ebola, which has killed thousands in West Africa in recent months.

There is no vaccine or specific treatment for the Marburg virus, which is transmitted through bodily fluids such as saliva and blood or by handling infected wild animals such as monkeys.

The Marburg Virus is an absolutely horrible disease, and many consider it to be even more deadly than Ebola.  But the fact that it kills victims so quickly may keep it from spreading as widely as Ebola.

We shall see.

Meanwhile, a disease that sounds very similar to Ebola and Marburg has popped up in Venezuela and doctors down there do not know what it is…

“We do not know what it is,” admitted Duglas León Natera, president of the Venezuelan Medical Federation.

In its initial stages, the disease presents symptoms of fever and spots on the skin, and then produces large blisters and internal and external bleeding, according to data provided week stop by the College of Physicians of the state of Aragua, where the first cases were reported.

Then, very quickly, patients suffer from respiratory failure, liver failure and kidney failure. Venezuelan doctors have not been able to determine what the disease is, much less how to fight it.

Why aren’t we hearing more about this in the mainstream news?

Here in the United States, enterovirus D-68 has sickened hundreds of children all over the country.  So far cases have been confirmed in 43 different states, several children have been paralyzed by it, and one New Jersey boy has died

Parents in New Jersey are concerned after a state medical examiner determined a virus causing severe respiratory illness across the country is responsible for the death of a 4-year-old boy.

Hamilton Township health officer Jeff Plunkett said the Mercer County medical examiner’s office found the death of Eli Waller was the result of enterovirus D-68. Waller, the youngest of a set of triplets, died in his sleep at home on Sept. 25.

The virus has sickened more than 500 people in 43 states and Washington, D.C.— almost all of them children. Waller is the first death in New Jersey directly linked to the virus.

The CDC seems to have no idea how to contain the spread of enterovirus D-68.

So why should we be confident that they will be able to contain the spread of Ebola?

Last but not least, the Chikungunya virus is at pandemic levels all over Central and South America.

We aren’t hearing that much about this disease in the U.S., but at this point more than a million people have already been infected…

An excruciating mosquito-borne illness that arrived less than a year ago in the Americas is raging across the region, leaping from the Caribbean to the Central and South American mainland, and infecting more than 1 million people. Some cases already have emerged in the United States.

The good news is that very few people actually die from this disease.

The bad news is that almost everyone that gets it feels like they are dying.

In a previous article, I wrote about the intense suffering that victims go through.  According to Slate, the name of this virus originally “comes from a Makonde word meaning ‘that which bends up,’ referring to the contortions sufferers put themselves through due to intense joint pain.”

Right now, the number of cases of Chikungunya is absolutely exploding.  Just check out the following excerpt from a recent Fox News report

In El Salvador, health officials report nearly 30,000 suspected cases, up from 2,300 at the beginning of August, and hospitals are filled with people with the telltale signs of the illness, including joint pain so severe it can be hard to walk.

“The pain is unbelievable,” said Catalino Castillo, a 39-year-old seeking treatment at a San Salvador hospital. “It’s been 10 days and it won’t let up.”

Venezuelan officials reported at least 1,700 cases as of Friday, and the number is expected to rise. Neighboring Colombia has around 4,800 cases but the health ministry projects there will be nearly 700,000 by early 2015.

So why is this happening?

Why are so many absolutely horrible diseases emerging all at once?

 

 

Some Ebola experts worry virus may spread more easily than assumed

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World Health Organization instructors watch as health workers in protective suits take part in a training session in Monrovia, Liberia.

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Matua Fallah waits to receive a ration of rice at a makeshift distribution center in Dolo Town, Liberia, in August.

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Relatives of a local government official are escorted from the West Point slum of Monrovia, Liberia, in August after unrest erupted in response to a government quarantine.

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Saah Exco, 10, lies in a back alley of Monrovia’s West Point slum in August. The boy was one of the patients pulled out of a holding center for suspected Ebola patients when the facility was overrun by a mob.

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A resident looks from behind a gate during the Liberian government’s 11-day Ebola quarantine in the West Point district of Monrovia.

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Residents of Monrovia’s West Point slum wait for a food aid distribution during the government-imposed quarantine there.

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A burial team from the Liberian Ministry of Health unloads the bodies of Ebola victims onto a funeral pyre at a crematorium in the town of Marshall.

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Residents in New Kru Town, Liberia, complain they have not received enough disinfection kits being distributed by the aid group Doctors Without Borders.

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Liberians in New Kru Town wait before dawn for disinfection kits being distributed by Doctors Without Borders.

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A health worker speaks with a boy at a center for suspected Ebola patients, formerly the maternity ward at Redemption Hospital in Monrovia.

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A woman carries a disinfection kit distributed by Doctors Without Borders in New Kru Town.

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Residents walk home with disinfection kits distributed in New Kru Town.

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Sanitized gloves and boots hang to dry at a Liberian Ministry of Health center for cremation in Monrovia.

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An Ebola awareness mural is displayed in Monrovia.

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A Liberian Ministry of Health worker speaks to Banu, 4, in a holding center for suspected Ebola patients at Redemption Hospital in Monrovia.

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U.S. Air Force personnel offload a mobile command center from a transport plane outside Monrovia to assist Liberia’s Ebola response.

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A man walks past the residence in Monrovia, Liberia, where Thomas Eric Duncan, the first patient to be diagnosed with Ebola in the United States, had rented a room.

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A health worker watches as a burial team collects the bodies of Ebola victims from a Ministry of Health center for cremation in Monrovia.

By David Willman contact the reporter

NationMedical ResearchAfricaScientific ResearchDiseases and IllnessesEbolaU.S. Centers for Disease Control and Prevention

Ebola researcher says he would not rule out possibility that the virus spreads through air in tight quarters

‘There are too many unknowns here,’ a virologist says of how Ebola may spread

Ebola researcher says he thinks there is a chance asymptomatic people could spread the virus

U.S. officials leading the fight against history’s worst outbreak of Ebola have said they know the ways the virus is spread and how to stop it. They say that unless an air traveler from disease-ravaged West Africa has a fever of at least 101.5 degrees or other symptoms, co-passengers are not at risk.

"At this point there is zero risk of transmission on the flight," Dr. Thomas Frieden, director of the federal Centers for Disease Control and Prevention, said after a Liberian man who flew through airports in Brussels and Washington was diagnosed with the disease last week in Dallas.

First Ebola infection outside West Africa

Three more were placed under quarantine at Madrid hospital where a Spanish nurse became infected, the first case infection outside of West Africa.

Other public health officials have voiced similar assurances, saying Ebola is spread only through physical contact with a symptomatic individual or their bodily fluids. "Ebola is not transmitted by the air. It is not an airborne infection," said Dr. Edward Goodman of Texas Health Presbyterian Hospital in Dallas, where the Liberian patient remains in critical condition.

Yet some scientists who have long studied Ebola say such assurances are premature — and they are concerned about what is not known about the strain now on the loose. It is an Ebola outbreak like none seen before, jumping from the bush to urban areas, giving the virus more opportunities to evolve as it passes through multiple human hosts.

Dr. C.J. Peters, who battled a 1989 outbreak of the virus among research monkeys housed in Virginia and who later led the CDC’s most far-reaching study of Ebola’s transmissibility in humans, said he would not rule out the possibility that it spreads through the air in tight quarters.

"We just don’t have the data to exclude it," said Peters, who continues to research viral diseases at the University of Texas in Galveston.

Dr. Philip K. Russell, a virologist who oversaw Ebola research while heading the U.S. Army’s Medical Research and Development Command, and who later led the government’s massive stockpiling of smallpox vaccine after the Sept. 11 terrorist attacks, also said much was still to be learned. "Being dogmatic is, I think, ill-advised, because there are too many unknowns here."

If Ebola were to mutate on its path from human to human, said Russell and other scientists, its virulence might wane — or it might spread in ways not observed during past outbreaks, which were stopped after transmission among just two to three people, before the virus had a greater chance to evolve. The present outbreak in West Africa has killed approximately 3,400 people, and there is no medical cure for Ebola.

"I see the reasons to dampen down public fears," Russell said. "But scientifically, we’re in the middle of the first experiment of multiple, serial passages of Ebola virus in man…. God knows what this virus is going to look like. I don’t."

U.S. To Increase Airport Screening For Ebola

The deteriorating conditions in Africa make it more likely additional cases of Ebola will appear in the United States and officials are pushing for increased screenings at airports.

Tom Skinner, a spokesman for the CDC in Atlanta, said health officials were basing their response to Ebola on what has been learned from battling the virus since its discovery in central Africa in 1976. The CDC remains confident, he said, that Ebola is transmitted principally by direct physical contact with an ill person or their bodily fluids.

Skinner also said the CDC is conducting ongoing lab analyses to assess whether the present strain of Ebola is mutating in ways that would require the government to change its policies on responding to it. The results so far have not provided cause for concern, he said.

The researchers reached in recent days for this article cited grounds to question U.S. officials’ assumptions in three categories.

One issue is whether airport screenings of prospective travelers to the U.S. from West Africa can reliably detect those who might have Ebola. Frieden has said the CDC protocols used at West African airports can be relied on to prevent more infected passengers from coming to the U.S.

"One hundred percent of the individuals getting on planes are screened for fever before they get on the plane," Frieden said Sept. 30. "And if they have a fever, they are pulled out of the line, assessed for Ebola, and don’t fly unless Ebola is ruled out."

Individuals who have flown recently from one or more of the affected countries suggested that travelers could easily subvert the screening procedures — and might have incentive to do so: Compared with the depleted medical resources in the West African countries of Liberia, Sierra Leone and Guinea, the prospect of hospital care in the U.S. may offer an Ebola-exposed person the only chance to survive.

Ailing in Monrovia, Liberia

Relatives pray over a weak Siata Johnson, 23, outside the Ebola treatment center at a hospital on the outskirts of Monrovia, Liberia. (John Moore / Getty Images)

A person could pass body temperature checks performed at the airports by taking ibuprofen or any common analgesic. And prospective passengers have much to fear from identifying themselves as sick, said Kim Beer, a resident of Freetown, the capital of Sierra Leone, who is working to get medical supplies into the country to cope with Ebola.

"It is highly unlikely that someone would acknowledge having a fever, or simply feeling unwell," Beer said via email. "Not only will they probably not get on the flight — they may even be taken to/required to go to a ‘holding facility’ where they would have to stay for days until it is confirmed that it is not caused by Ebola. That is just about the last place one would want to go."

Liberian officials said last week that the patient hospitalized in Dallas, Thomas Eric Duncan, did not report to airport screeners that he had had previous contact with an Ebola-stricken woman. It is not known whether Duncan knew she suffered from Ebola; her family told neighbors it was malaria.

The potential disincentive for passengers to reveal their own symptoms was echoed by Sheka Forna, a dual citizen of Sierra Leone and Britain who manages a communications firm in Freetown. Forna said he considered it "very possible" that people with fever would medicate themselves to appear asymptomatic.

It would be perilous to admit even nonspecific symptoms at the airport, Forna said in a telephone interview. "You’d be confined to wards with people with full-blown disease."

On Monday, the White House announced that a review was underway of existing airport procedures. Frieden and President Obama’s assistant for homeland security and counter-terrorism, Lisa Monaco, said Friday that closing the U.S. to passengers from the Ebola-affected countries would risk obstructing relief efforts.

CDC officials also say that asymptomatic patients cannot spread Ebola. This assumption is crucial for assessing how many people are at risk of getting the disease. Yet diagnosing a symptom can depend on subjective understandings of what constitutes a symptom, and some may not be easily recognizable. Is a person mildly fatigued because of short sleep the night before a flight — or because of the early onset of disease?

Moreover, said some public health specialists, there is no proof that a person infected — but who lacks symptoms — could not spread the virus to others.

"It’s really unclear," said Michael Osterholm, a public health scientist at the University of Minnesota who recently served on the U.S. government’s National Science Advisory Board for Biosecurity. "None of us know."

Russell, who oversaw the Army’s research on Ebola, said he found the epidemiological data unconvincing.

"The definition of ‘symptomatic’ is a little difficult to deal with," he said. "It may be generally true that patients aren’t excreting very much virus until they become ill, but to say that we know the course of [the virus’ entry into the bloodstream] and the course of when a virus appears in the various secretions, I think, is premature."

The CDC’s Skinner said that while officials remained confident that Ebola can be spread only by the overtly sick, the ongoing studies would assess whether mutations that might occur could increase the potential for asymptomatic patients to spread it.

Finally, some also question the official assertion that Ebola cannot be transmitted through the air. In late 1989, virus researcher Charles L. Bailey supervised the government’s response to an outbreak of Ebola among several dozen rhesus monkeys housed for research in Reston, Va., a suburb of Washington.

What Bailey learned from the episode informs his suspicion that the current strain of Ebola afflicting humans might be spread through tiny liquid droplets propelled into the air by coughing or sneezing.

"We know for a fact that the virus occurs in sputum and no one has ever done a study [disproving that] coughing or sneezing is a viable means of transmitting," he said. Unqualified assurances that Ebola is not spread through the air, Bailey said, are "misleading."

Peters, whose CDC team studied cases from 27 households that emerged during a 1995 Ebola outbreak in Democratic Republic of Congo, said that while most could be attributed to contact with infected late-stage patients or their bodily fluids, "some" infections may have occurred via "aerosol transmission."

Ashoka Mukpo

Ebola patient Ashoka Mukpo is loaded into an ambulance after arriving in Omaha. The American photojournalist became ill while working in Liberia and was taken to Nebraska Medical Center, where he will be kept in isolation. (James R. Burnett / World-Herald)

Skinner of the CDC, who cited the Peters-led study as the most extensive of Ebola’s transmissibility, said that while the evidence "is really overwhelming" that people are most at risk when they touch either those who are sick or such a person’s vomit, blood or diarrhea, "we can never say never" about spread through close-range coughing or sneezing.

"I’m not going to sit here and say that if a person who is highly viremic … were to sneeze or cough right in the face of somebody who wasn’t protected, that we wouldn’t have a transmission," Skinner said.

Peters, Russell and Bailey, who in 1989 was deputy commander for research of the Army’s Medical Research Institute of Infectious Diseases, in Frederick, Md., said the primates in Reston had appeared to spread Ebola to other monkeys through their breath.

The Ebola strain found in the monkeys did not infect their human handlers. Bailey, who now directs a biocontainment lab at George Mason University in Virginia, said he was seeking to research the genetic differences between the Ebola found in the Reston monkeys and the strain currently circulating in West Africa.

Though he acknowledged that the means of disease transmission among the animals would not guarantee the same result among humans, Bailey said the outcome may hold lessons for the present Ebola epidemic.

"Those monkeys were dying in a pattern that was certainly suggestive of coughing and sneezing — some sort of aerosol movement," Bailey said. "They were dying and spreading it so quickly from cage to cage. We finally came to the conclusion that the best action was to euthanize them all."

david.willman@latimes.com

Copyright © 2014, Los Angeles Times


35 of the Most Dangerous Viruses and Bacteria’s in the World Today

The Black Plague, Marburg, Ebola, Influenza, Enterovirus virus may all sound terrifying, but it’s not the most dangerous virus in the world. It isn’t HIV either. Here is a list of the most dangerous viruses and Bacteria’s on the Planet Earth.

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1. Marburg Virus The most dangerous virus is the Marburg virus. It is named after a small and idyllic town on the river Lahn – but that has nothing to do with the disease itself. The Marburg virus is a hemorrhagic fever virus. As with Ebola, the Marburg virus causes convulsions and bleeding of mucous membranes, skin and organs. It has a fatality rate of 90 percent.  The Marburg virus causes a rare, but severe hemorrhagic fever that has a fatality rate of 88%. It was first identified in 1967 when outbreaks of hemorrhagic fever cropped up simultaneously in Marburg, where the disease got its name, Frankfurt in Germany and Belgrade, Serbia.

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Marburg and Ebola came from the Filoviridae family of viruses. They both have the capacity to cause dramatic outbreaks with the greatest fatality rates. It is transmitted to humans from fruit bats and spreads to humans through direct contact with the blood, secretions and other bodily fluids of infected humans. No anti-viral treatment or vaccine exists against the Marburg virus. In 1967, a group of lab workers in Germany (Marburg and Frankfurt) and Serbia (then Yugoslavia) contracted a new type of hemorrhagic fever from some virus-carrying African green monkeys that had been imported for research and development of polio vaccines. The Marburg virus is also BSL-4, and Marburg hemorrhagic fever has a 23 to 90 percent fatality rate. Spread through close human-to-human contact, symptoms start with a headache, fever, and a rash on the trunk, and progress to multiple organ failure and massive internal bleeding.

There is no cure, and the latest cases were reported out of Uganda at the end of 2012. An American tourist who had explored a Ugandan cave full of fruit bats known to be reservoirs of the virus contracted it and survived in 2008. (But not before bringing his sick self back to the U.S.)

2. Ebola Virus  There are five strains of the Ebola virus, each named after countries and regions in Africa: Zaire, Sudan, Tai Forest, Bundibugyo and Reston. The Zaire Ebola virus is the deadliest, with a mortality rate of 90 percent. It is the strain currently spreading through Guinea, Sierra Leone and Liberia, and beyond. Scientists say flying foxes probably brought the Zaire Ebola virus into cities.

Typically less than 100 lives a year. UPDATE: A severe Ebola outbreak was detected in West Africa in March 2014. The number of deaths in this latest outbreak has outnumbered all other known cases from previous outbreaks combined. The World Health Organization is reporting nearly 2,000 deaths in this latest outbreak.
Once a person is infected with the virus, the disease has an incubation period of 2-21 days; however, some infected persons are asymptomatic. Initial symptoms are sudden malaise, headache, and muscle pain, progressing to high fever, vomiting, severe hemorrhaging (internally and out of the eyes and mouth) and in 50%-90% of patients, death, usually within days. The likelihood of death is governed by the virulence of the particular Ebola strain involved. Ebola virus is transmitted in body fluids and secretions; there is no evidence of transmission by casual contact. There is no vaccine and no cure.

Its melodic moniker may roll off the tongue, but if you contract the virus (above), that’s not the only thing that will roll off one of your body parts (a disturbing amount of blood coming out of your eyes, for instance). Four of the five known Ebola viral strains cause Ebola hemorrhagic fever (EHF), which has killed thousands of people in sub-Saharan African nations since its discovery in 1976.

The deadly virus is named after the Ebola River in the Democratic Republic of the Congo where it was first reported, and is classified as a CDC Biosafety Level 4, a.k.a. BSL-4, making it one of the most dangerous pathogens on the planet. It is thought to spread through close contact with bodily secretions. EHF has a 50 to 90 percent mortality rate, with a rapid onset of symptoms that start with a headache and sore throat and progress to major internal and external bleeding and multiple organ failure. There’s no known cure, and the most recent cases were reported at the end of 2012 in Uganda.

3. The Hantavirus describes several types of viruses. It is named after a river where American soldiers were first thought to have been infected with the Hantavirus, during the Korean War in 1950. Symptoms include lung disease, fever and kidney failure.

70,000 Deaths a Year
Hantavirus pulmonary syndrome (HPS) is a deadly disease transmitted by infected rodents through urine, droppings, or saliva. Humans can contract the disease when they breathe in aerosolized virus. HPS was first recognized in 1993 and has since been identified throughout the United States. Although rare, HPS is potentially deadly. Rodent control in and around the home remains the primary strategy for preventing hantavirus infection. Also known as House Mouse Flu. The symptoms, which are very similar to HFRS, include tachycardia and tachypnea. Such conditions can lead to a cardiopulmonary phase, where cardiovascular shock can occur, and hospitalization of the patient is required.

There are many strains of hantavirus floating around (yep, it’s airborne) in the wake of rodents that carry the virus. Different strains, carried by different rodent species, are known to cause different types of illnesses in humans, most notably hemorrhagic fever with renal syndrome (HFRS)—first discovered during the Korean War—and hantavirus pulmonary syndrome (HPS), which reared its ugly head with a 1993 outbreak in the Southwestern United States. Severe HFRS causes acute kidney failure, while HPS gets you by filling your lungs with fluid (edema). HFRS has a mortality rate of 1 to 15 percent, while HPS is 38 percent. The U.S. saw its most recent outbreak of hantavirus—of the HPS variety—at Yosemite National Park in late 2012.

4. Avian Influenza Bird Flu The various strains of bird flu regularly cause panic – which is perhaps justified because the mortality rate is 70 percent. But in fact the risk of contracting the H5N1 strain – one of the best known – is quite low. You can only be infected through direct contact with poultry. It is said this explains why most cases appear in Asia, where people often live close to chickens.

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This form of the flu is common among birds (usually poultry) and infects humans through contact with secretions of an infected bird.

Although rare, those infected have a high incidence of death. Symptoms are like those of the more common human form of influenza.

Bird flu (H5N1) has receded from international headlines for the moment, as few human cases of the deadly virus have been reported this year. But when Dutch researchers recently created an even more transmissible strain of the virus in a laboratory for research purposes, they stirred grave concerns about what would happen if it escaped into the outside world. “Part of what makes H5N1 so deadly is that most people lack an immunity to it,” explains Marc Lipsitch, a professor of epidemiology at Harvard School of Public Health (HSPH) who studies the spread of infectious diseases. “If you make a strain that’s highly transmissible between humans, as the Dutch team did, it could be disastrous if it ever escaped the lab.”

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H5N1 first made global news in early 1997 after claiming two dozen victims in Hong Kong. The virus normally occurs only in wild birds and farm-raised fowl, but in those isolated early cases, it made the leap from birds to humans. It then swept unimpeded through the bodies of its initial human victims, causing massive hemorrhages in the lungs and death in a matter of days. Fortunately, during the past 15 years, the virus has claimed only 400 victims worldwide—although the strain can jump species, it hasn’t had the ability to move easily from human to human, a critical limit to its spread.

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That’s no longer the case, however. In late 2011, the Dutch researchers announced the creation of an H5N1 virus transmissible through the air between ferrets (the best animal model for studying the impact of disease on humans). The news caused a storm of controversy in the popular press and heated debate among scientists over the ethics of the work. For Lipsitch and many others, the creation of the new strain was cause for alarm. “H5N1 influenza is already one of the most deadly viruses in existence,” he says. “If you make [the virus] transmissible [between humans], you have to be very concerned about what the resulting strain could do.”

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To put this danger in context, the 1918 “Spanish” flu—one of the most deadly influenza epidemics on record—killed between 50 million and 100 million people worldwide, or roughly 3 to 6 percent of those infected. The more lethal SARS virus (see “The SARS Scare,” March-April 2007, page 47) killed almost 10 percent of infected patients during a 2003 outbreak that reached 25 countries worldwide. H5N1 is much more dangerous, killing almost 60 percent of those who contract the illness.

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If a transmissible strain of H5N1 escapes the lab, says Lipsitch, it could spark a global health catastrophe. “It could infect millions of people in the United States, and very likely more than a billion people globally, like most successful flu strains do,” he says. “This might be one of the worst viruses—perhaps the worst virus—in existence right now because it has both transmissibility and high virulence.”

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Ironically, this is why Ron Fouchier, the Dutch virologist whose lab created the new H5N1 strain, argues that studying it in more depth is crucial. If the virus can be made transmissible in the lab, he reasons, it can also occur in nature—and researchers should have an opportunity to understand as much as possible about the strain before that happens.

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Lipsitch, who directs the Center for Communicable Disease Dynamics at HSPH, thinks the risks far outweigh the rewards. Even in labs with the most stringent safety requirements, such as enclosed rubber “space suits” to isolate researchers, accidents do happen. A single unprotected breath could infect a researcher, who might unknowingly spread the virus beyond the confines of the lab.

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In an effort to avoid this scenario, Lipsitch has been pushing for changes in research policy in the United States and abroad. (A yearlong, voluntary global ban on H5N1 research was lifted in many countries in January, and new rules governing such research in the United States were expected in February.) Lipsitch says that none of the current research proposals he has seen “would significantly improve our preparational response to a national pandemic of H5N1. The small risk of a very large public health disaster…is not worth taking [for] scientific knowledge without an immediate public health application.” His recent op-eds in scientific journals and the popular press have stressed the importance of regulating the transmissible strain and limiting work with the virus to only a handful of qualified labs. In addition, he argues, only technicians who have the right training and experience—and have been inoculated against the virus—should be allowed to handle it.

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These are simple limitations that could drastically reduce the danger of the virus spreading, he asserts, yet they’re still not popular with some researchers. He acknowledges that limiting research is an unusual practice scientifically but argues, “These are unusual circumstances.”

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Lipsitch thinks a great deal of useful research can still be done on the non-transmissible strain of the virus, which would provide valuable data without the risk of accidental release. In the meantime, he hopes to make more stringent H5N1 policies a priority for U.S. and foreign laboratories. Although it’s not a perfect solution, he says, it’s far better than a nightmare scenario.

5. Lassa Virus  A nurse in Nigeria was the first person to be infected with the Lassa virus. The virus is transmitted by rodents. Cases can be endemic – which means the virus occurs in a specific region, such as in western Africa, and can reoccur there at any time. Scientists assume that 15 percent of rodents in western Africa carry the virus.

Marburg virus

The Marburg virus under a microscope

This BSL-4 virus gives us yet another reason to avoid rodents. Lassa is carried by a species of rat in West Africa called Mastomys. It’s airborne…at least when you’re hanging around the rat’s fecal matter. Humans, however, can only spread it through direct contact with bodily secretions. Lassa fever, which has a 15 to 20 percent mortality rate, causes about 5000 deaths a year in West Africa, particularly in Sierra Leone and Liberia.

It starts with a fever and some retrosternal pain (behind the chest) and can progress to facial swelling, encephalitis, mucosal bleeding and deafness. Fortunately, researchers and medical professionals have found some success in treating Lassa fever with an antiviral drug in the early stages of the disease.

6. The Junin Virus is associated with Argentine hemorrhagic fever. People infected with the virus suffer from tissue inflammation, sepsis and skin bleeding. The problem is that the symptoms can appear to be so common that the disease is rarely detected or identified in the first instance.

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A member of the genus Arenavirus, Junin virus characteristically causes Argentine hemorrhagic fever (AHF). AHF leads to major alterations within the vascular, neurological and immune systems and has a mortality rate of between 20 and 30%.  Symptoms of the disease are conjunctivitis, purpura, petechia and occasional sepsis. The symptoms of the disease are relatively indistinct and may therefore be mistaken for a different condition.

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Since the discovery of the Junin virus in 1958, the geographical distribution of the pathogen, although still confined to Argentina, has risen. At the time of discovery, Junin virus was confined to an area of around 15,000 km². At the beginning of 2000, the distribution had risen to around 150,000 km². The natural hosts of Junin virus are rodents, particularly Mus musculus, Calomys spp. and Akodon azarae.

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Direct rodent to human transmission only transpires when contact is made with excrement of an infected rodent. This commonly occurs via ingestion of contaminated food or water, inhalation of particles within urine or via direct contact of broken skin with rodent excrement.

7. The Crimea-Congo Fever Virus is transmitted by ticks. It is similar to the Ebola and Marburg viruses in the way it progresses. During the first days of infection, sufferers present with pin-sized bleedings in the face, mouth and the pharynx.

Transmitted through tick bites this disease is endemic (consistently present)  in most countries of West Africa and the Middle East. Although rare, CCHF has a 30% mortality rate. The most recent outbreak of the disease was in 2005 in Turkey. The Crimean-Congo hemorrhagic fever is a common disease transmitted by a tick-Bourne virus. The virus causes major hemorrhagic fever outbreaks with a fatality rate of up to 30%. It is chiefly transmitted to people through tick and livestock. Person-to-person transmission occurs through direct contact with the blood, secretions and other bodily fluids of an infected person. No vaccination exists for both humans and animals against CCHF.

8. The Machupo Virus is associated with Bolivian hemorrhagic fever, also known as black typhus. The infection causes high fever, accompanied by heavy bleedings. It progresses similar to the Junin virus. The virus can be transmitted from human to human, and rodents often the carry it.

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Bolivian hemorrhagic fever (BHF), also known as black typhus or Ordog Fever, is a hemorrhagic fever and zoonotic infectious disease originating in Bolivia after infection by Machupo virus.BHF was first identified in 1963 as an ambisense RNA virus of the Arenaviridae family,by a research group led by Karl Johnson. The mortality rate is estimated at 5 to 30 percent.

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Due to its pathogenicity, Machupo virus requires Biosafety Level Four conditions, the highest level.In February and March 2007, some 20 suspected BHF cases (3 fatal) were reported to the El Servicio Departmental de Salud (SEDES) in Beni Department, Bolivia, and in February 2008, at least 200 suspected new cases (12 fatal) were reported to SEDES.In November 2011, a SEDES expert involved in a serosurvey to determine the extent of Machupo virus infections in the Department after the discovery of a second confirmed case near the departmental capital of Trinidad in November, 2011, expressed concern about expansion of the virus’ distribution outside the endemic zone in Mamoré and Iténez provinces.

NAmerican viruses

Bolivian hemorrhagic fever was one of three hemorrhagic fevers and one of more than a dozen agents that the United States researched as potential biological weapons before the nation suspended its biological weapons program. It was also under research by the Soviet Union, under the Biopreparat bureau.

9. Kyasanur Forest Virus  Scientists discovered the Kyasanur Forest Virus (KFD) virus in woodlands on the southwestern coast of India in 1955. It is transmitted by ticks, but scientists say it is difficult to determine any carriers. It is assumed that rats, birds and boars could be hosts. People infected with the virus suffer from high fever, strong headaches and muscle pain which can cause bleedings.

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The disease has a morbidity rate of 2-10%, and affects 100-500 people annually.The symptoms of the disease include a high fever with frontal headaches, followed by hemorrhagic symptoms, such as bleeding from the nasal cavity, throat, and gums, as well as gastrointestinal bleeding.An affected person may recover in two weeks time, but the convalescent period is typically very long, lasting for several months. There will be muscle aches and weakness during this period and the affected person is unable to engage in physical activities.

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There are a variety of animals thought to be reservoir hosts for the disease, including porcupines, rats, squirrels, mice and shrews. The vector for disease transmission is Haemaphysalis spinigera, a forest tick. Humans contract infection from the bite of nymphs of the tick.

Kyasanur Forest Disease Host

The disease was first reported from Kyasanur Forest of Karnataka in India in March 1957. The disease first manifested as an epizootic outbreak among monkeys killing several of them in the year 1957. Hence the disease is also locally known as Monkey Disease or Monkey Fever. The similarity with Russian Spring-summer encephalitis was noted and the possibility of migratory birds carrying the disease was raised. Studies began to look for the possible species that acted as reservoirs for the virus and the agents responsible for transmission. Subsequent studies failed to find any involvement of migratory birds although the possibility of their role in initial establishment was not ruled out. The virus was found to be quite distinctive and not closely related to the Russian virus strains.

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Antigenic relatedness is however close to many other strains including the Omsk hemorrhagic fever (OHF) and birds from Siberia have been found to show an antigenic response to KFD virus. Sequence based studies however note the distinctiveness of OHF.Early studies in India were conducted in collaboration with the US Army Medical Research Unit and this led to controversy and conspiracy theories.

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Subsequent studies based on sequencing found that the Alkhurma virus, found in Saudi Arabia is closely related. In 1989 a patient in Nanjianin, China was found with fever symptoms and in 2009 its viral gene sequence was found to exactly match with that of the KFD reference virus of 1957. This has however been questioned since the Indian virus shows variations in sequence over time and the exact match with the virus sequence of 1957 and the Chinese virus of 1989 is not expected.

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This study also found using immune response tests that birds and humans in the region appeared to have been exposed to the virus.Another study has suggested that the virus is recent in origin dating the nearest common ancestor of it and related viruses to around 1942, based on the estimated rate of sequence substitutions. The study also raises the possibility of bird involvement in long-distance transfer. It appears that these viruses diverged 700 years ago.

10. Dengue Fever is a constant threat. If you’re planning a holiday in the tropics, get informed about dengue. Transmitted by mosquitoes, dengue affects between 50 and 100 million people a year in popular holiday destinations such as Thailand and India. But it’s more of a problem for the 2 billion people who live in areas that are threatened by dengue fever.

25,000 Deaths a year Also known as ‘breakbone fever’ due to the extreme pain felt during fever, is an relatively new disease caused by one of four closely-related viruses. WHO estimates that a whopping 2.5 billion people (two fifths of the World’s population) are at risk from dengue. It puts the total number of infections at around 50 million per year, and is now epidemic in more than 100 countries.


Dengue viruses are transferred to humans through the bites of infective female Aedes mosquitoes. The dengue virus circulates in the blood of a human for two to seven days, during the same time they have the fever. It usually appears first on the lower limbs and the chest; in some patients, it spreads to cover most of the body. There may also be severe retro-orbital pain, (a pain from behind the eyes that is distinctive to Dengue infections), and gastritis with some combination of associated abdominal pain, nausea, vomiting coffee-grounds-like congealed blood, or severe diarrhea.

The leading cause of death in the tropics and subtropics is the infection brought on by the dengue virus, which causes a high fever, severe headache, and, in the worst cases, hemorrhaging. The good news is that it’s treatable and not contagious. The bad news is there’s no vaccine, and you can get it easily from the bite of an infected mosquito—which puts at least a third of the world’s human population at risk. The CDC estimates that there are over 100 million cases of dengue fever each year. It’s a great marketing tool for bug spray.

11. HIV 3.1 Million Lives a Year Human Immunodeficiency Virus has claimed the lives of more than 25 million people since 1981. HIV gets to the immune system by infecting important cells, including helper cells called CD4+ T cells, plus macrophanges and dendritic cells. Once the virus has taken hold, it systematically kills these cells, damaging the infected person’s immunity and leaving them more at risk from infections.

The majority of people infected with HIV go on to develop AIDS. Once a patient has AIDS common infections and tumours normally controlled by the CD4+ T cells start to affect the person.  
In the latter stages of the disease, pneumonia and various types of herpes can infect the patient and cause death.

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Human immunodeficiency virus infection / acquired immunodeficiency syndrome (HIV/AIDS) is a disease of the human immune system caused by infection with human immunodeficiency virus (HIV). The term HIV/AIDS represents the entire range of disease caused by the human immunodeficiency virus from early infection to late stage symptoms. During the initial infection, a person may experience a brief period of influenza-like illness. This is typically followed by a prolonged period without symptoms. As the illness progresses, it interferes more and more with the immune system, making the person much more likely to get infections, including opportunistic infections and tumors that do not usually affect people who have working immune systems.

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HIV is transmitted primarily via unprotected sexual intercourse (including anal and oral sex), contaminated blood transfusions, hypodermic needles, and from mother to child during pregnancy, delivery, or breastfeeding. Some bodily fluids, such as saliva and tears, do not transmit HIV. Prevention of HIV infection, primarily through safe sex and needle-exchange programs, is a key strategy to control the spread of the disease. There is no cure or vaccine; however, antiretroviral treatment can slow the course of the disease and may lead to a near-normal life expectancy. While antiretroviral treatment reduces the risk of death and complications from the disease, these medications are expensive and have side effects. Without treatment, the average survival time after infection with HIV is estimated to be 9 to 11 years, depending on the HIV subtype.

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Genetic research indicates that HIV originated in west-central Africa during the late nineteenth or early twentieth century. AIDS was first recognized by the United States Centers for Disease Control and Prevention (CDC) in 1981 and its cause—HIV infection—was identified in the early part of the decade. Since its discovery, AIDS has caused an estimated 36 million deaths worldwide (as of 2012). As of 2012, approximately 35.3 million people are living with HIV globally. HIV/AIDS is considered a pandemic—a disease outbreak which is present over a large area and is actively spreading.

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HIV/AIDS has had a great impact on society, both as an illness and as a source of discrimination. The disease also has significant economic impacts. There are many misconceptions about HIV/AIDS such as the belief that it can be transmitted by casual non-sexual contact. The disease has also become subject to many controversies involving religion. It has attracted international medical and political attention as well as large-scale funding since it was identified in the 1980s

 

12. Rotavirus 61,000 Lives a Year  According to the WHO, this merciless virus causes the deaths of more than half a million children every year. In fact, by the age of five, virtually every child on the planet has been infected with the virus at least once. Immunity builds up with each infection, so subsequent infections are milder. However, in areas where adequate healthcare is limited the disease is often fatal. Rotavirus infection usually occurs through ingestion of contaminated stool.

Because the virus is able to live a long time outside of the host, transmission can occur through ingestion of contaminated food or water, or by coming into direct contact with contaminated surfaces, then putting hands in the mouth.
Once it’s made its way in, the rotavirus infects the cells that line the small intestine and multiplies. It emits an enterotoxin, which gives rise to gastroenteritis.

13. Smallpox   Officially eradicated – Due to it’s long history, it impossible to estimate the carnage over the millennia Smallpox localizes in small blood vessels of the skin and in the mouth and throat. In the skin, this results in a characteristic maculopapular rash, and later, raised fluid-filled blisters. It has an overall mortality rate of 30–35%. Smallpox is believed to have emerged in human populations about 10,000 BC. The disease killed an estimated 400,000 Europeans per year during the closing years of the 18th century (including five reigning monarchs), and was responsible for a third of all blindness. Of all those infected, 20–60%—and over 80% of infected children—died from the disease.
Smallpox was responsible for an estimated 300–500 million deaths during the 20th century alone. In the early 1950s an estimated 50 million cases of smallpox occurred in the world each year.

As recently as 1967, the World Health Organization (WHO) estimated that 15 million people contracted the disease and that two million died in that year. After successful vaccination campaigns throughout the 19th and 20th centuries, the WHO certified the eradication of smallpox in December 1979.
Smallpox is one of only two infectious diseases to have been eradicated by humans, the other being Rinderpest, which was unofficially declared eradicated in October 2010.

The virus that causes smallpox wiped out hundreds of millions of people worldwide over thousands of years. We can’t even blame it on animals either, as the virus is only carried by and contagious for humans. There are several different types of smallpox disease that result from an infection ranging from mild to fatal, but it is generally marked by a fever, rash, and blistering, oozing pustules that develop on the skin. Fortunately, smallpox was declared eradicated in 1979, as the result of successful worldwide implementation of the vaccine.

14. Hepatitis B  521,000 Deaths a Year A third of the World’s population (over 2 billion people) has come in contact with this virus, including 350 million chronic carriers. In China and other parts of Asia, up to 10% of the adult population is chronically infected. The symptoms of acute hepatitis B include yellowing of the skin of eyes, dark urine, vomiting, nausea, extreme fatigue, and abdominal pain.

Luckily, more than 95% of people who contract the virus as adults or older children will make a full recovery and develop immunity to the disease. In other people, however, hepatitis B can bring on chronic liver failure due to cirrhosis or cancer.

Hepatitis B is an infectious illness of the liver caused by the hepatitis B virus (HBV) that affects hominoidea, including humans. It was originally known as "serum hepatitis". Many people have no symptoms during the initial infected. Some develop an acute illness with vomiting, yellow skin, dark urine and abdominal pain. Often these symptoms last a few weeks and rarely result in death. It may take 30 to 180 days for symptoms to begin. Less than 10% of those infected develop chronic hepatitis B. In those with chronic disease cirrhosis and liver cancer may eventually develop.

HBV_replication

The virus is transmitted by exposure to infectious blood or body fluidsInfection around the time of birth is the most common way the disease is acquired in areas of the world where is common. In areas where the disease is uncommon intravenous drug use and sex are the most common routes of infection. Other risk factors include working in a healthcare setting, blood transfusions, dialysis, sharing razors or toothbrushes with an infected person, travel in countries where it is common, and living in an institution.

Tattooing and acupuncture led to a significant number of cases in the 1980s; however, this has become less common with improved sterility. The hepatitis B viruses cannot be spread by holding hands, sharing eating utensils or drinking glasses, kissing, hugging, coughing, sneezing, or breastfeeding.  The hepatitis B virus is a hepadnavirushepa from hepatotropic (attracted to the liver) and dna because it is a DNA virus. The viruses replicate through an RNA intermediate form by reverse transcription, which in practice relates them to retroviruses.It is 50 to 100 times more infectious than HIV.

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The infection has been preventable by vaccination since 1982. During the initial infected care is based on the symptoms present. In those who developed chronic disease antiviral medication such as tenofovir or interferon maybe useful, however are expensive.

About a third of the world population has been infected at one point in their lives, including 350 million who are chronic carriers. Over 750,000 people die of hepatitis B a year. The disease has caused outbreaks in parts of Asia and Africa, and it is now only common in China. Between 5 and 10% of adults in sub-Saharan Africa and East Asia have chronic disease. Research is in progress to create edible HBV vaccines in foods such as potatoes, carrots, and bananas.In 2004, an estimated 350 million individuals were infected worldwide. National and regional prevalence ranges from over 10% in Asia to under 0.5% in the United States and northern Europe. Routes of infection include vertical transmission (such as through childbirth), early life horizontal transmission (bites, lesions, and sanitary habits), and adult horizontal transmission (sexual contact, intravenous drug use).

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The primary method of transmission reflects the prevalence of chronic HBV infection in a given area. In low prevalence areas such as the continental United States and Western Europe, injection drug abuse and unprotected sex are the primary methods, although other factors may also be important. In moderate prevalence areas, which include Eastern Europe, Russia, and Japan, where 2–7% of the population is chronically infected, the disease is predominantly spread among children. In high-prevalence areas such as China and South East Asia, transmission during childbirth is most common, although in other areas of high endemicity such as Africa, transmission during childhood is a significant factor. The prevalence of chronic HBV infection in areas of high endemicity is at least 8% with 10-15% prevalence in Africa/Far East. As of 2010, China has 120 million infected people, followed by India and Indonesia with 40 million and 12 million, respectively. According to World Health Organization (WHO), an estimated 600,000 people die every year related to the infection. In the United States about 19,000 new cases occurred in 2011 down nearly 90% from 1990.

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Acute infection with hepatitis B virus is associated with acute viral hepatitis – an illness that begins with general ill-health, loss of appetite, nausea, vomiting, body aches, mild fever, and dark urine, and then progresses to development of jaundice. It has been noted that itchy skin has been an indication as a possible symptom of all hepatitis virus types. The illness lasts for a few weeks and then gradually improves in most affected people. A few people may have more severe liver disease (fulminant hepatic failure), and may die as a result. The infection may be entirely asymptomatic and may go unrecognized.

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Chronic infection with hepatitis B virus either may be asymptomatic or may be associated with a chronic inflammation of the liver (chronic hepatitis), leading to cirrhosis over a period of several years. This type of infection dramatically increases the incidence of hepatocellular carcinoma (liver cancer). Across Europe hepatitis B and C cause approximately 50% of hepatocellular carcinomas. Chronic carriers are encouraged to avoid consuming alcohol as it increases their risk for cirrhosis and liver cancer. Hepatitis B virus has been linked to the development of membranous glomerulonephritis (MGN).

HBV

Symptoms outside of the liver are present in 1–10% of HBV-infected people and include serum-sickness–like syndrome, acute necrotizing vasculitis (polyarteritis nodosa), membranous glomerulonephritis, and papular acrodermatitis of childhood (Gianotti–Crosti syndrome). The serum-sickness–like syndrome occurs in the setting of acute hepatitis B, often preceding the onset of jaundice. The clinical features are fever, skin rash, and polyarteritis. The symptoms often subside shortly after the onset of jaundice, but can persist throughout the duration of acute hepatitis B.  About 30–50% of people with acute necrotizing vasculitis (polyarteritis nodosa) are HBV carriers. HBV-associated nephropathy has been described in adults but is more common in children.Membranous glomerulonephritis is the most common form. Other immune-mediated hematological disorders, such as essential mixed cryoglobulinemia and aplastic anemia.

15. Influenza 500,000 Deaths a Year Influenza has been a prolific killer for centuries. The symptoms of influenza were first described more than 2,400 years ago by Hippocrates. Pandemics generally occur three times a century, and can cause millions of deaths. The most fatal pandemic on record was the Spanish flu outbreak in 1918, which caused between 20 million and 100 million deaths. In order to invade a host, the virus shell includes proteins that bind themselves to receptors on the outside of cells in the lungs and air passages of the victim. Once the virus has latched itself onto the cell it takes over so much of its machinery that the cell dies. Dead cells in the airways cause a runny nose and sore throat. Too many dead cells in the lungs causes death.

 
Vaccinations against the flu are common in developed countries. However, a vaccination that is effective one year may not necessarily work the next year, due to the way the rate at which a flu virus evolves and the fact that new strains will soon replace older ones. No virus can claim credit for more worldwide pandemics and scares than influenza.

The outbreak of the Spanish flu in 1918 is generally considered to be one of the worst pandemics in human history, infecting 20 to 40 percent of the world’s population and killing 50 million in the span of just two years. (A reconstruction of that virus is above.) The swine flu was its most recent newsmaker, when a 2009 pandemic may have seen as many as 89 million people infected worldwide.

Effective influenza vaccines exist, and most people easily survive infections. But the highly infectious respiratory illness is cunning—the virus is constantly mutating and creating new strains. Thousands of strains exist at any given time, many of them harmless, and vaccines available in the U.S. cover only about 40 percent of the strains at large each year.

16. Hepatitis C  56,000 Deaths a Year An estimated 200-300 million people worldwide are infected with hepatitis C.

 

Most people infected with hepatitis C don’t have any symptoms and feel fine for years. However, liver damage invariably rears its ugly head over time, often decades after first infection. In fact, 70% of those infected develop chronic liver disease, 15% are struck with cirrhosis and 5% can die from liver cancer or cirrhosis. In the USA, hepatitis C is the primary reason for liver transplants.

All-about-hepatitis-C

Hepatitis C is an infectious disease affecting primarily the liver, caused by the hepatitis C virus (HCV). The infection is often asymptomatic, but chronic infection can lead to scarring of the liver and ultimately to cirrhosis, which is generally apparent after many years. In some cases, those with cirrhosis will go on to develop liver failure, liver cancer, or life-threatening esophageal and gastric varices.

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HCV is spread primarily by blood-to-blood contact associated with intravenous drug use, poorly sterilized medical equipment, and transfusions. An estimated 150–200 million people worldwide are infected with hepatitis C. The existence of hepatitis C (originally identifiable only as a type of non-A non-B hepatitis) was suggested in the 1970s and proven in 1989. Hepatitis C infects only humans and chimpanzees.

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The virus persists in the liver in about 85% of those infected. This chronic infection can be treated with medication: the standard therapy is a combination of peginterferon and ribavirin, with either boceprevir or telaprevir added in some cases. Overall, 50–80% of people treated are cured. Those who develop cirrhosis or liver cancer may require a liver transplant. Hepatitis C is the leading reason for liver transplantation, though the virus usually recurs after transplantation. No vaccine against hepatitis C is available.

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Hepatitis C infection causes acute symptoms in 15% of cases. Symptoms are generally mild and vague, including a decreased appetite, fatigue, nausea, muscle or joint pains, and weight loss and rarely does acute liver failure result. Most cases of acute infection are not associated with jaundice. The infection resolves spontaneously in 10–50% of cases, which occurs more frequently in individuals who are young and female.

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About 80% of those exposed to the virus develop a chronic infection.  This is defined as the presence of detectable viral replication for at least six months. Most experience minimal or no symptoms during the initial few decades of the infection.Chronic hepatitis C can be associated with fatigue and mild cognitive problems. Chronic infection after several years may cause cirrhosis or liver cancer. The liver enzymes are normal in 7–53%.  Late relapses after apparent cure have been reported, but these can be difficult to distinguish from reinfection.

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Fatty changes to the liver occur in about half of those infected and are usually present before cirrhosis develops.  Usually (80% of the time) this change affects less than a third of the liver. Worldwide hepatitis C is the cause of 27% of cirrhosis cases and 25% of hepatocellular carcinoma.  About 10–30% of those infected develop cirrhosis over 30 years. Cirrhosis is more common in those also infected with hepatitis B, schistosoma, or HIV, in alcoholics and in those of male gender. In those with hepatitis C, excess alcohol increases the risk of developing cirrhosis 100-fold.Those who develop cirrhosis have a 20-fold greater risk of hepatocellular carcinoma. This transformation occurs at a rate of 1–3% per year.  Being infected with hepatitis B in additional to hepatitis C increases this risk further.

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Liver cirrhosis may lead to portal hypertension, ascites (accumulation of fluid in the abdomen), easy bruising or bleeding, varices (enlarged veins, especially in the stomach and esophagus), jaundice, and a syndrome of cognitive impairment known as hepatic encephalopathy. Ascites occurs at some stage in more than half of those who have a chronic infection.

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The most common problem due to hepatitis C but not involving the liver is mixed cryoglobulinemia (usually the type II form) — an inflammation of small and medium-sized blood vessels. Hepatitis C is also associated with Sjögren’s syndrome (an autoimmune disorder); thrombocytopenia; lichen planus; porphyria cutanea tarda; necrolytic acral erythema; insulin resistance; diabetes mellitus; diabetic nephropathy; autoimmune thyroiditis and B-cell lymphoproliferative disorders.  Thrombocytopenia is estimated to occur in 0.16% to 45.4% of people with chronic hepatitis C. 20–30% of people infected have rheumatoid factor — a type of antibody. Possible associations include Hyde’s prurigo nodularis and membranoproliferative glomerulonephritis. Cardiomyopathy with associated arrhythmias has also been reported. A variety of central nervous system disorders have been reported.  Chronic infection seems to be associated with an increased risk of pancreatic cancer.

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Persons who have been infected with hepatitis C may appear to clear the virus but remain infected. The virus is not detectable with conventional testing but can be found with ultra-sensitive tests.The original method of detection was by demonstrating the viral genome within liver biopsies, but newer methods include an antibody test for the virus’ core protein and the detection of the viral genome after first concentrating the viral particles by ultracentrifugation. A form of infection with persistently moderately elevated serum liver enzymes but without antibodies to hepatitis C has also been reported. This form is known as cryptogenic occult infection.

Causes of hep C(4)

Several clinical pictures have been associated with this type of infection. It may be found in people with anti-hepatitis-C antibodies but with normal serum levels of liver enzymes; in antibody-negative people with ongoing elevated liver enzymes of unknown cause; in healthy populations without evidence of liver disease; and in groups at risk for HCV infection including those on haemodialysis or family members of people with occult HCV. The clinical relevance of this form of infection is under investigation. The consequences of occult infection appear to be less severe than with chronic infection but can vary from minimal to hepatocellular carcinoma.

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The rate of occult infection in those apparently cured is controversial but appears to be low 40% of those with hepatitis but with both negative hepatitis C serology and the absence of detectable viral genome in the serum have hepatitis C virus in the liver on biopsy.How commonly this occurs in children is unknown.
There is no cure, no vaccine.

17. Measle  197,000 Deaths a Year Measles, also known as Rubeola, has done a pretty good job of killing people throughout the ages. Over the last 150 years, the virus has been responsible for the deaths of around 200 million people. The fatality rate from measles for otherwise healthy people in developed countries is 3 deaths per thousand cases, or 0.3%. In underdeveloped nations with high rates of malnutrition and poor healthcare, fatality rates have been as high as 28%. In immunocompromised patients (e.g. people with AIDS) the fatality rate is approximately 30%.

During the 1850s, measles killed a fifth of Hawaii’s people. In 1875, measles killed over 40,000 Fijians, approximately one-third of the population. In the 19th century, the disease decimated the Andamanese population. In 1954, the virus causing the disease was isolated from an 11-year old boy from the United States, David Edmonston, and adapted and propagated on chick embryo tissue culture.


To date, 21 strains of the measles virus have been identified.

18. Yellow Fever  30,000 Deaths a Year. Yellow fever is an acute viral hemorrhagic disease transmitted by the bite of female mosquitoes and is found in tropical and subtropical areas in South America and Africa. The only known hosts of the virus are primates and several species of mosquito. The origin of the disease is most likely to be Africa, from where it was introduced to South America through the slave trade in the 16th century. Since the 17th century, several major epidemics of the disease have been recorded in the Americas, Africa and Europe. In the 19th century, yellow fever was deemed one of the most dangerous infectious diseases.

Yellow fever presents in most cases with fever, nausea, and pain and it generally subsides after several days. In some patients, a toxic phase follows, in which liver damage with jaundice (giving the name of the disease) can occur and lead to death. Because of the increased bleeding tendency (bleeding diathesis), yellow fever belongs to the group of hemorrhagic fevers.

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Since the 1980s, the number of cases of yellow fever has been increasing, making it a reemerging disease Transmitted through infected mosquitoes, Yellow Fever is still a serious problem in countries all over the world and a serious health risk for travelers to Africa, South America and some areas in the Caribbean.  Fatality rates range from 15 to over 50%. Symptoms include high fever, headache, abdominal pain, fatigue, vomiting and nausea.

Yellow fever is a hemorrhagic fever transmitted by infected mosquitoes. The yellow is in reference to the yellow color (jaundice) that affects some patients. The virus is endemic in tropical areas in Africa and South America.

The disease typically occurs in two phases. The first phase typically causes fever, headache, muscle pain and back pain, chills and nausea. Most patients recover from these symptoms while 15% progresses to the toxic second phase. High fever returns, jaundice becomes apparent, patient complains of abdominal pain with vomiting, and bleeding in the mouth, eyes, nose or stomach occurs. Blood appears in the stool or vomit and kidney function deteriorates. 50% of the patients that enter the toxic phase die within 10 to 14 days.

There is no treatment for yellow fever. Patients are only given supportive care for fever, dehydration and respiratory failure. Yellow fever is preventable through vaccination.

19. Rabies  55,000 Deaths a Year Rabies is almost invariably fatal if post-exposure prophylaxis is not administered prior to the onset of severe symptoms. If there wasn’t a vaccine, this would be the most deadly virus on the list.

It is a zoonotic virus transmitted through the bite of an animal. The virus worms its way into the brain along the peripheral nerves. The incubation phase of the rabies disease can take up to several months, depending on how far it has to go to reach the central nervous system. It provokes acute pain, violent movements, depression, uncontrollable excitement, and inability to swallow water (rabies is often known as ‘hydrophobia’). After these symptoms subside the fun really starts as the infected person experiences periods of mania followed by coma then death, usually caused by respiratory insufficiency.

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Rabies has a long and storied history dating back to 2300 B.C., with records of Babylonians who went mad and died after being bitten by dogs. While this virus itself is a beast, the sickness it causes is now is wholly preventable if treated immediately with a series of vaccinations (sometimes delivered with a terrifyingly huge needle in the abdomen). We have vaccine inventor Louis Pasteur to thank for that.

Exposure to rabies these days, while rare in the U.S., still occurs as it did thousands of years ago—through bites from infected animals. If left untreated after exposure, the virus attacks the central nervous system and death usually results. The symptoms of an advanced infection include delirium, hallucinations and raging, violent behavior in some cases, which some have argued makes rabies eerily similar to zombification. If rabies ever became airborne, we might actually have to prepare for that zombie apocalypse after all.

21. Common Cold  No known cure The common cold is the most frequent infectious disease in humans with on average two to four infections a year in adults and up to 6–12 in children. Collectively, colds, influenza, and other infections with similar symptoms are included in the diagnosis of influenza-like illness.

They may also be termed upper respiratory tract infections (URTI). Influenza involves the lungs while the common cold does not.
It’s annoying as hell, but there’s nothing to do but wave the white flag on this one.
Virus: Infinity. People: 0

22. Anthrax  Anthrax is a diseased caused by a bacterium called Bacillus Anthracis. There are three types of anthrax, skin, lung, and digestive. Anthrax has lately become a major world issue for its ability to become an epidemic and spread quickly and easily among people through contact with spores.

Anthrax

It is important to know that  Anthrax is not spread from person to person, but is through contact/handling of products containing spores. Flu like symptoms, nausea, and blisters are common symptoms of exposure. Inhalational anthrax and gastrointestinal anthrax are serious issue because of their high mortality rates ranging from 50 to 100%.

Anthrax is a severe infectious disease caused by the bacteria Bacillus anthracis. This type of bacteria produces spores that can live for years in the soil. Anthrax is more common in farm animals, though humans can get infected as well. Anthrax is not contagious. A person can get infected only when the bacteria gets into the skin, lungs or  digestive tract.

There are three types of anthrax: skin anthrax, inhalation anthrax and gastrointestinal anthrax. Skin anthrax symptoms include fever, muscle aches, headache, nausea and vomiting. Inhalation anthrax begins with flu-like symptoms, which progresses  with severe respiratory distress. Shock, coma and then death follows. Most patients do not recover even if given appropriate antibiotics due to the toxins released by the anthrax bacteria. Gastrointestinal anthrax symptoms include fever, nausea, abdominal pain and bloody diarrhea.

Anthrax is treated with antibiotics.

23. Malaria  Malaria is a mosquito-borne illness caused by parasite. Although malaria can be prevented and treated, it is often fatal.

Malaria

Each year about 1 million people die from Malaria.  Common symptoms include fever, chills, headache. Sweats, and fatigue. Malaria is a serious disease caused by Plasmodium parasites that infects Anopheles mosquitoes which feeds on humans. Initial symptoms include high fever, shaking chills, headache and vomiting – symptoms that may be too  mild to be identified as malaria. If not treated within 24 hours, it can progress to severe illnesses that could lead to death.

The WHO estimates that malaria caused 207,000,000 clinical episodes and 627,000 deaths, mostly among African children,  in 2012. About 3.5 billion people from 167 countries live in areas at risk of malaria transmission.

24. Cholera  Due to the severe dehydration it causes, if left untreated Cholera can cause death within hours. In 1991 a major outbreak occurred in South America though currently few cases are known outside of Sub-Saharan Africa.

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Symptoms include severe diarrhea, vomiting and leg cramping. Cholera is usually contracted through ingestion of contaminated water or food. Cholera is an acute intestinal infection caused by a bacterium called Vibrio cholera. It has an incubation period of less than a day to five days and causes painless, watery diarrhea that quickly leads to severe dehydration and death if treatment is not promptly given.

Cholera remains a global problem and continues to be a challenge for countries where access to safe drinking water and sanitation is a problem.

25.  Typhoid Fever  Patients with typhoid fever sometimes demonstrate a rash of flat, rose-colored spots and a sustained fever of 103 to 104.

typhoid

Typhoid is contracted through contact with the S. Typhi bacteria, which is carried by humans in both their blood stream and stool. Over 400 cases occur in the US, 20% of those who contract it die. Typhoid fever is a serious and potentially fatal disease caused by the bacterium Salmonella Typhi. This type of bacteria lives only in humans. People sick with typhoid fever carry the bacteria in their bloodstream and intestinal tract and transmit the bacteria through their stool.

A person can get typhoid fever by drinking or eating food contaminated with Salmonella Typhi or if contaminated sewage gets into the water used for drinking or washing dishes.

Typhoid fever symptoms include high fever, weakness, headache, stomach pains or loss of appetite. Typhoid fever is determined by testing the presence of Salmonella Typhi in the stool or blood of an infected person. Typhoid fever is treated with antibiotics.

26. SARS (Severe Acute Respiratory Syndrome) and the MERS VIRUS A new Pneumonia disease that emerged in China in 2003. After news of the outbreak of SARS China tried to silence news about it both internal and international news , SARS spread rapidly, reaching neighboring countries Hong Kong and Vietnam in late February 2003, and then to other countries via international travelers.Canada Had a outbreak that was fairly well covered and cost Canada quite a bit financially

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The last case of this epidemic occurred in June 2003. In that outbreak, 8069 cases arise that killed 775 people. There is speculation that this disease is Man-Made SARS, SARS has symptoms of flu and may include: fever, cough, sore throat and other non-specific symptoms.

SuperBug-Virus

The only symptom that is common to all patients was fever above 38 degrees Celsius. Shortness of breath may occur later. There is currently no vaccine for the disease so that countermeasures can only assist the breathing apparatus. The virus was said to be the Virus of the End Times

27.  MERS(Middle Eastern Respiratory Syndrome) The Middle East respiratory syndrome coronavirus (MERS-CoV), also termed EMC/2012 (HCoV-EMC/2012), is positive-sense, single-stranded RNA novel species of the genus Betacoronavirus.

MERS-CoV

First called novel coronavirus 2012 or simply novel coronavirus, it was first reported in 2012 after genome sequencing of a virus isolated from sputum samples from patients who fell ill in a 2012 outbreak of a new flu.

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As of June 2014, MERS-CoV cases have been reported in 22 countries, including Saudi Arabia, Malaysia, Jordan, Qatar, Egypt, the United Arab Emirates, Kuwait, Oman, Algeria, Bangladesh, the Philippines (still MERS-free), Indonesia (none was confirmed), the United Kingdom, and the United States. Almost all cases are somehow linked to Saudi Arabia. In the same article it was reported that Saudi authorities’ errors in response to MERS-CoV were a contributing factor to the spread of this deadly virus.

27. Enterovirus (Brain Inflammation) Entero virus is a disease of the hands, feet and mouth, and we can not ignored occasional Brain Inflammation. Enterovirus attack symptoms are very similar to regular flu symptoms so its difficult to detect it, such as fever, sometimes accompanied by dizziness and weakness and pain.

Next will come the little red watery bumps on the palms and feet following oral thrush. In severe conditions, Enterovirus can attack the nerves and brain tissue to result in death.

The virus is easily spread through direct contact with patients. Children are the main victims of the spread of enterovirus in China. Since the first victim was found but reporting was delayed until several weeks later.

24 thousand people have contracted the enterovirus. More than 30 of them died mostly children. The virus is reported to have entered Indonesia and infecting three people in Sumatra.  2014Enterovirus 68 is presently spreading across North America mainly and started in the USA has probably spread to Canada and Mexico by now. Enterovirus 68’s spread is unprecedented up till now

28.  The Black Plague  The 1918 flu virus and HIV are the biggest killers of modern times. But back in the 14th century, the bacterium that causes bubonic plague, or the Black Death as it was also known, was the baddest bug of all. In just a few years, from 1347 to 1351, the plague killed off about 75,000,000 people worldwide, including one-third of the entire population of Europe at that time.

Carrying away the victims of plague

It spread through Asia, Italy, North Africa, Spain, Normandy, Switzerland, and eastward into Hungary. After a brief break, it crossed into England, Scotland, and then to Norway, Sweden, Denmark, Iceland and Greenland.

the plague bacterium

Yersinia pestis, the plague bacteria
Courtesy of Neal Chamberlain

The plague bacterium is called Yersinia <yer-sin-ee-uh> pestis. There are two main forms of the disease. In the bubonic <boo-bah-nick> form, the bacteria cause painful swellings as large as an orange to form in the armpits, neck and groin. These swellings, or buboes, often burst open, oozing blood and pus. Blood vessels leak blood that puddles under the skin, giving the skin a blackened look. That’s why the disease became known as the Black Death. At least half of its victims die within a week.

The pneumonic <new-mon-ick> form of plague causes victims to sweat heavily and cough up blood that starts filling their lungs. Almost no one survived it during the plague years. Yersinia pestis is the deadliest microbe we’ve ever known, although HIV might catch up to it. Yersinia pestis is still around in the world. Fortunately, with bacteria-killing antibiotics and measures to control the pests—rats and mice—that spread the bacteria, we’ve managed to conquer this killer.

29. Human Papillomavirus  Human papillomavirus (HPV) is a DNA virus from the papillomavirus family that is capable of infecting humans. Like all papillomaviruses, HPVs establish productive infections only in keratinocytes of the skin or mucous membranes.

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Most HPV infections are subclinical and will cause no physical symptoms; however, in some people subclinical infections will become clinical and may cause benign papillomas (such as warts [verrucae] or squamous cell papilloma), or cancers of the cervix, vulva, vagina, penis, oropharynx and anus.HPV has been linked with an increased risk of cardiovascular disease. In addition, HPV 16 and 18 infections are a cause of a unique type of oropharyngeal (throat) cancer and are believed to cause 70% of cervical cancer, which have available vaccines, see HPV vaccine.

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More than 30 to 40 types of HPV are typically transmitted through sexual contact and infect the anogenital region. Some sexually transmitted HPV types may cause genital warts. Persistent infection with "high-risk" HPV types—different from the ones that cause skin warts—may progress to precancerous lesions and invasive cancer. High-risk HPV infection is a cause of nearly all cases of cervical cancer.However, most infections do not cause disease.

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Seventy percent of clinical HPV infections, in young men and women, may regress to subclinical in one year and ninety percent in two years. However, when the subclinical infection persists—in 5% to 10% of infected women—there is high risk of developing precancerous lesions of the vulva and cervix, which can progress to invasive cancer. Progression from subclinical to clinical infection may take years; providing opportunities for detection and treatment of pre-cancerous lesions.

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In more developed countries, cervical screening using a Papanicolaou (Pap) test or liquid-based cytology is used to detect abnormal cells that may develop into cancer. If abnormal cells are found, women are invited to have a colposcopy. During a colposcopic inspection, biopsies can be taken and abnormal areas can be removed with a simple procedure, typically with a cauterizing loop or, more commonly in the developing world—by freezing (cryotherapy).

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Treating abnormal cells in this way can prevent them from developing into cervical cancer. Pap smears have reduced the incidence and fatalities of cervical cancer in the developed world, but even so there were 11,000 cases and 3,900 deaths in the U.S. in 2008. Cervical cancer has substantial mortality worldwide, there are an estimated 490,000 cases and 270,000 deaths each year.

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It is true that infections caused by human papillomavirus (HPV) are not fatal, but chronic infection may result in cervical cancer. Apparently, HPV is responsible for almost all cervical cancers (approx. 99%). HPV results in 275,000 deaths per year.

30. Henipaviruses The genus Henipavirus comprises of 3 members which are Hendra virus (HeV), Nipah virus (NiV), and Cedar virus (CedPV). The second one was introduced in the middle of 2012, although affected no human, and is therefore considered harmless. The rest of the two viruses, however, are lethal with mortality rate up to 50-100%.

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Hendra virus (originally Equine morbillivirus) was discovered in September 1994 when it caused the deaths of thirteen horses, and a trainer at a training complex in Hendra, a suburb of Brisbane in Queensland, Australia.

The index case, a mare, was housed with 19 other horses after falling ill, and died two days later. Subsequently, all of the horses became ill, with 13 dying. The remaining 6 animals were subsequently euthanized as a way of preventing relapsing infection and possible further transmission.The trainer, Victory (‘Vic’) Rail, and a stable hand were involved in nursing the index case, and both fell ill with an influenza-like illness within one week of the first horse’s death. The stable hand recovered while Mr Rail died of respiratory and renal failure. The source of the virus was most likely frothy nasal discharge from the index case.

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A second outbreak occurred in August 1994 (chronologically preceding the first outbreak) in Mackay 1,000 km north of Brisbane resulting in the deaths of two horses and their owner. The owner, Mark Preston, assisted in necropsies of the horses and within three weeks was admitted to hospital suffering from meningitis. Mr Preston recovered, but 14 months later developed neurologic signs and died. This outbreak was diagnosed retrospectively by the presence of Hendra virus in the brain of the patient.pathogens-02-00264-g002-1024

A survey of wildlife in the outbreak areas was conducted, and identified pteropid fruit bats as the most likely source of Hendra virus, with a seroprevalence of 47%. All of the other 46 species sampled were negative. Virus isolations from the reproductive tract and urine of wild bats indicated that transmission to horses may have occurred via exposure to bat urine or birthing fluids.  However, the only attempt at experimental infection reported in the literature, conducted at CSIRO Geelong, did not result in infection of a horse from infected flying foxes. This study looked at potential infection between bats, horses and cats, in various combinations. The only species that was able to infect horses was the cat (Felix spp.)

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Nipah virus was identified in April 1999, when it caused an outbreak of neurological and respiratory disease on pig farms in peninsular Malaysia, resulting in 257 human cases, including 105 human deaths and the culling of one million pigs.  In Singapore, 11 cases, including one death, occurred in abattoir workers exposed to pigs imported from the affected Malaysian farms. The Nipah virus has been classified by the Centers for Disease Control and Prevention as a Category C agent. The name "Nipah" refers to the place, Kampung Baru Sungai Nipah in Negeri Sembilan State, Malaysia, the source of the human case from which Nipah virus was first isolated.

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The outbreak was originally mistaken for Japanese encephalitis (JE), however, physicians in the area noted that persons who had been vaccinated against JE were not protected, and the number of cases among adults was unusual Despite the fact that these observations were recorded in the first month of the outbreak, the Ministry of Health failed to react accordingly, and instead launched a nationwide campaign to educate people on the dangers of JE and its vector, Culex mosquitoes.

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Symptoms of infection from the Malaysian outbreak were primarily encephalitic in humans and respiratory in pigs. Later outbreaks have caused respiratory illness in humans, increasing the likelihood of human-to-human transmission and indicating the existence of more dangerous strains of the virus. Based on seroprevalence data and virus isolations, the primary reservoir for Nipah virus was identified as Pteropid fruit bats, including Pteropus vampyrus (Large Flying Fox), and Pteropus hypomelanus (Small flying fox), both of which occur in Malaysia.

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The transmission of Nipah virus from flying foxes to pigs is thought to be due to an increasing overlap between bat habitats and piggeries in peninsular Malaysia. At the index farm, fruit orchards were in close proximity to the piggery, allowing the spillage of urine, feces and partially eaten fruit onto the pigs. Retrospective studies demonstrate that viral spillover into pigs may have been occurring in Malaysia since 1996 without detection. During 1998, viral spread was aided by the transfer of infected pigs to other farms, where new outbreaks occurred.

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Cedar Virus (CedPV) was first identified in pteropid urine during work on Hendra virus undertaken in Queensland in 2009. Although the virus is reported to be very similar to both Hendra and Nipah, it does not cause illness in laboratory animals usually susceptible to paramyxoviruses. Animals were able to mount an effective response and create effective antibodies.3273481_pone.0027918.g003

The scientists who identified the virus report:

Hendra and Nipah viruses are 2 highly pathogenic paramyxoviruses that have emerged from bats within the last two decades. Both are capable of causing fatal disease in both humans and many mammal species. Serological and molecular evidence for henipa-like viruses have been reported from numerous locations including Asia and Africa, however, until now no successful isolation of these viruses have been reported. This paper reports the isolation of a novel paramyxovirus, named Cedar virus, from fruit bats in Australia. Full genome sequencing of this virus suggests a close relationship with the henipaviruses.
 
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Antibodies to Cedar virus were shown to cross react with, but not cross neutralize Hendra or Nipah virus. Despite this close relationship, when Cedar virus was tested in experimental challenge models in ferrets and guinea pigs, we identified virus replication and generation of neutralizing antibodies, but no clinical disease was observed. As such, this virus provides a useful reference for future reverse genetics experiments to determine the molecular basis of the pathogenicity of the henipaviruses.

30. Lyssaviruses  This genus comprises of not only rabies virus (causing death of almost everyone who is infected) but certain other viruses such as Duvenhage virus, Mokola virus, and Australian bat lyssavirus. Although small number of cases are reported, but the ones reported have always been fatal. Bats are vectors for all of these types except for Mokola virus.

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Lyssavirus (from Lyssa, the Greek goddess of madness, rage, and frenzy) is a genus of viruses belonging to the family Rhabdoviridae, in the order Mononegavirales. This group of RNA viruses includes the rabies virus traditionally associated with the disease. Viruses typically have either helical or cubic symmetry. Lyssaviruses have helical symmetry, so their infectious particles are approximately cylindrical in shape. This is typical of plant-infecting viruses. Human-infecting viruses more commonly have cubic symmetry and take shapes approximating regular polyhedra. The structure consists of a spiked outer envelope, a middle region consisting of matrix protein M, and an inner ribonucleocapsid complex region, consisting of the genome associated with other proteins.

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Lyssavirus genome consists of a negative-sense, single-stranded RNA molecule that encodes five viral proteins: polymerase L, matrix protein M, phosphoprotein P, nucleoprotein N, and glycoprotein G.

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Based on recent phylogenetic evidence, lyssa viruses are categorized into seven major species. In addition, five species recently have been discovered: West Caucasian bat virus, Aravan virus, Khuj and virus, Irkut virus and Shimoni bat virus. The major species include rabies virus (species 1), Lagos bat virus (species 2), Mokola virus (species 3), Duvenhage virus (species 4), European Bat lyssaviruses type 1 and 2 (species 5 and 6), and Australian bat lyssavirus (species 7).83980497

Based on biological properties of the viruses, these species are further subdivided into phylogroups 1 and 2. Phylogroup 1 includes genotypes 1, 4, 5, 6, and 7, while phylogroup 2 includes genotypes 2 and 3. The nucleocapsid region of lyssavirus is fairly highly conserved from genotype to genotype across both phylogroups; however, experimental data have shown the lyssavirus strains used in vaccinations are only from the first species(i.e. classic rabies).

31. Tuberculosis  Mucous, fever, fatigue, excessive sweating and weight loss. What do they all have in common?

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They are symptoms of pulmonary tuberculosis, or TB. TB is a contagious bacterial infection that involves the lungs, but it may spread to other organs. The symptoms of this disease can remain stagnant for years or affect the person right away. People at higher risk for contracting TB include the elderly, infants and those with weakened immune systems due to other diseases, such as AIDS or diabetes, or even individuals who have undergone chemotherapy.

Being around others who may have TB, maintaining a poor diet or living in unsanitary conditions are all risk factors for contracting TB. In the United States, there are approximately 10 cases of TB per 100,000 people. Tuberculosis, MTB, or TB (short for tubercle bacillus), in the past also called phthisis, phthisis pulmonalis, or consumption, is a widespread, and in many cases fatal, infectious disease caused by various strains of mycobacteria, usually Mycobacterium tuberculosis.

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Tuberculosis typically attacks the lungs, but can also affect other parts of the body. It is spread through the air when people who have an active TB infection cough, sneeze, or otherwise transmit respiratory fluids through the air. Most infections do not have symptoms, known as latent tuberculosis. About one in ten latent infections eventually progresses to active disease which, if left untreated, kills more than 50% of those so infected.

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The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss (the latter giving rise to the formerly common term for the disease, "consumption"). Infection of other organs causes a wide range of symptoms. Diagnosis of active TB relies on radiology (commonly chest X-rays), as well as microscopic examination and microbiological culture of body fluids.

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Diagnosis of latent TB relies on the tuberculin skin test (TST) and/or blood tests. Treatment is difficult and requires administration of multiple antibiotics over a long period of time. Social contacts are also screened and treated if necessary. Antibiotic resistance is a growing problem in multiple drug-resistant tuberculosis (MDR-TB) infections. Prevention relies on screening programs and vaccination with the bacillus Calmette-Guérin vaccine.

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One-third of the world’s population is thought to have been infected with M. tuberculosis, with new infections occurring in about 1% of the population each year.In 2007, an estimated 13.7 million chronic cases were active globally, while in 2010, an estimated 8.8 million new cases and 1.5 million associated deaths occurred, mostly in developing countries. The absolute number of tuberculosis cases has been decreasing since 2006, and new cases have decreased since 2002.

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The rate of tuberculosis in different areas varies across the globe; about 80% of the population in many Asian and African countries tests positive in tuberculin tests, while only 5–10% of the United States population tests positive. More people in the developing world contract tuberculosis because of a poor immune system, largely due to high rates of HIV infection and the corresponding development of AIDS.

32. Encephalitis Virus Encephalitis is an acute inflammation of the brain, commonly caused by a viral infection. Victims are usually exposed to viruses resulting in encephalitis by insect bites or food and drink. The most frequently encountered agents are arboviruses (carried by mosquitoes or ticks) and enteroviruses ( coxsackievirus, poliovirus and echovirus ). Some of the less frequent agents are measles, rabies, mumps, varicella and herpes simplex viruses.

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Patients with encephalitis suffer from fever, headache, vomiting, confusion, drowsiness and photophobia. The symptoms of encephalitis are caused by brain’s defense mechanisms being activated to get rid of infection (brain swelling, small bleedings and cell death). Neurologic examination usually reveals a stiff neck due to the irritation of the meninges covering the brain. Examination of the cerebrospinal fluidCerebrospinal fluid CSF in short, is the clear fluid that occupies the subarachnoid space (the space between the skull and cortex of the brain). It acts as a "cushion" or buffer for the cortex.

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Also, CSF occupies the ventricular system of the brain and the obtained by a lumbar puncture In medicine, a lumbar puncture (colloquially known as a spinal tap is a diagnostic procedure that is done to collect a sample of cerebrospinal fluid (CSF) for biochemical, microbiological and cytological analysis. Indications The most common indication for procedure reveals increased amounts of proteins and white blood cells with normal glucose. A CT scan examination is performed to reveal possible complications of brain swelling, brain abscess Brain abscess (or cerebral abscess) is an abscess caused by inflammation and collection of infected material coming from local (ear infection, infection of paranasal sinuses, infection of the mastoid air cells of the temporal bone, epidural abscess) or re or bleeding. Lumbar puncture procedure is performed only after the possibility of a prominent brain swelling is excluded by a CT scan examination.

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What are the main Symptoms?
Some patients may have symptoms of a cold or stomach infection before encephalitis symptoms begin.
When a case of encephalitis is not very severe, the symptoms may be similar to those of other illnesses, including:
• Fever that is not very high
• Mild headache
• Low energy and a poor appetite
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Other symptoms include:
• Clumsiness, unsteady gait
• Confusion, disorientation
• Drowsiness
• Irritability or poor temper control
• Light sensitivity
• Stiff neck and back (occasionally)
• Vomiting
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Symptoms in newborns and younger infants may not be as easy to recognize:
• Body stiffness
• Irritability and crying more often (these symptoms may get worse when the baby is picked up)
• Poor feeding
• Soft spot on the top of the head may bulge out more
• Vomiting
Encephalitis

• Loss of consciousness, poor responsiveness, stupor, coma
• Muscle weakness or paralysis
• Seizures
• Severe headache
• Sudden change in mental functions:
• "Flat" mood, lack of mood, or mood that is inappropriate for the situation
• Impaired judgment
• Inflexibility, extreme self-centeredness, inability to make a decision, or withdrawal from social interaction
• Less interest in daily activities
• Memory loss (amnesia), impaired short-term or long-term memory

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Children and adults should avoid contact with anyone who has encephalitis.
Controlling mosquitoes (a mosquito bite can transmit some viruses) may reduce the chance of some infections that can lead to encephalitis.
• Apply an insect repellant containing the chemical, DEET when you go outside (but never use DEET products on infants younger than 2 months).
• Remove any sources of standing water (such as old tires, cans, gutters, and wading pools).
• Wear long-sleeved shirts and pants when outside, particularly at dusk.
Vaccinate animals to prevent encephalitis caused by the rabies virus.

 

33. Chicken Pox Virus Chickenpox is a highly contagious disease caused by primary infection with varicella zoster virus (VZV).It usually starts with a vesicular skin rash mainly on the body and head rather than on the limbs. The rash develops into itchy, raw pockmarks, which mostly heal without scarring. On examination, the observer typically finds skin lesions at various stages of healing and also ulcers in the oral cavity and tonsil areas. The disease is most commonly observed in children.

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Chickenpox is an airborne disease which spreads easily through coughing or sneezing by ill individuals or through direct contact with secretions from the rash. A person with chickenpox is infectious one to two days before the rash appears. They remain contagious until all lesions have crusted over (this takes approximately six days). Immunocompromised patients are contagious during the entire period as new lesions keep appearing. Crusted lesions are not contagious.Chickenpox has been observed in other primates, including chimpanzees and gorillas.

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The origin of the term chicken pox, which is recorded as being used since 1684,is not reliably known. It has been said to be a derived from chickpeas, based on resemblance of the vesicles to chickpeas, or to come from the rash resembling chicken pecks. Other suggestions include the designation chicken for a child (i.e., literally ‘child pox’), a corruption of itching-pox, or the idea that the disease may have originated in chickens. Samuel Johnson explained the designation as "from its being of no very great danger."

Chickenpox

The early (prodromal) symptoms in adolescents and adults are nausea, loss of appetite, aching muscles, and headache. This is followed by the characteristic rash or oral sores, malaise, and a low-grade fever that signal the presence of the disease. Oral manifestations of the disease (enanthem) not uncommonly may precede the external rash (exanthem). In children the illness is not usually preceded by prodromal symptoms, and the first sign is the rash or the spots in the oral cavity. The rash begins as small red dots on the face, scalp, torso, upper arms and legs; progressing over 10–12 hours to small bumps, blisters and pustules; followed by umbilication and the formation of scabs.

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At the blister stage, intense itching is usually present. Blisters may also occur on the palms, soles, and genital area. Commonly, visible evidence of the disease develops in the oral cavity & tonsil areas in the form of small ulcers which can be painful or itchy or both; this enanthem (internal rash) can precede the exanthem (external rash) by 1 to 3 days or can be concurrent. These symptoms of chickenpox appear 10 to 21 days after exposure to a contagious person. Adults may have a more widespread rash and longer fever, and they are more likely to experience complications, such as varicella pneumonia.Because watery nasal discharge containing live virus usually precedes both exanthem (external rash) and enanthem (oral ulcers) by 1 to 2 days, the infected person actually becomes contagious one to two days prior to recognition of the disease. Contagiousness persists until all vesicular lesions have become dry crusts (scabs), which usually entails four or five days, by which time nasal shedding of live virus also ceases.

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Chickenpox is rarely fatal, although it is generally more severe in adult men than in women or children. Non-immune pregnant women and those with a suppressed immune system are at highest risk of serious complications. Arterial ischemic stroke (AIS) associated with chickenpox in the previous year accounts for nearly one third of childhood AIS. The most common late complication of chickenpox is shingles (herpes zoster), caused by reactivation of the varicella zoster virus decades after the initial, often childhood, chickenpox infection.

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Shingles  Herpes zoster After a chickenpox infection, the virus remains dormant in the body’s nerve tissues. The immune system keeps the virus at bay, but later in life, usually as an adult, it can be reactivated and cause a different form of the viral infection called shingles (scientifically known as herpes zoster). The United States Advisory Committee on Immunization Practices (ACIP) suggests that any adult over the age of 60 years gets the herpes zoster vaccine as a part of their normal medical check ups.

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Many adults who have had chickenpox as children are susceptible to shingles as adults, often with the accompanying condition postherpetic neuralgia, a painful condition that makes it difficult to sleep. Even after the shingles rash has gone away, there can be night pain in the area affected by the rash.Shingles affects one in five adults infected with chickenpox as children, especially those who are immune suppressed, particularly from cancer, HIV, or other conditions.

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However, stress can bring on shingles as well, although scientists are still researching the connection.Shingles are most commonly found in adults over the age of 60 who were diagnosed with chickenpox when they were under the age of 1.A shingles vaccine is available for adults over 50 who have had childhood chickenpox or who have previously had shingles.

34. POXVIRUS  Poxviruses (members of the family Poxviridae) are viruses that can, as a family, infect both vertebrate and invertebrate animals.

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Four genera of poxviruses may infect humans: orthopox, parapox, yatapox, molluscipox. Orthopox: smallpox virus (variola), vaccinia virus, cowpox virus, monkeypox virus; Parapox: orf virus, pseudocowpox, bovine papular stomatitis virus; Yatapox: tanapox virus, yaba monkey tumor virus; Molluscipox: molluscum contagiosum virus (MCV).The most common are vaccinia (seen on Indian subcontinent) and molluscum contagiousum, but monkeypox infections are rising (seen in west and central African rainforest countries). Camelpox is a disease of camels caused by a virus of the family Poxviridae, subfamily Chordopoxvirinae, and the genus Orthopoxvirus. It causes skin lesions and a generalized infection. Approximately 25% of young camels that become infected will die from the disease, while infection in older camels is generally more mild.

Poxvirus model in section (Pov_Ray)

The ancestor of the poxviruses is not known but structural studies suggest it may have been an adenovirus or a species related to both the poxviruses and the adenoviruses. Based on the genome organization and DNA replication mechanism it seems that phylogenetic relationships may exist between the rudiviruses (Rudiviridae) and the large eukaryal DNA viruses: the African swine fever virus (Asfarviridae), Chlorella viruses (Phycodnaviridae) and poxviruses (Poxviridae).The mutation rate in these genomes has been estimated to be 0.9-1.2 x 10−6 substitutions per site per year.A second estimate puts this rate at 0.5-7 × 10−6 nucleotide substitutions per site per year.  A third estimate places the rate at 4-6 × 10−6.

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The last common ancestor of the extant poxviruses that infect vertebrates existed 0.5 million years ago. The genus Avipoxvirus diverged from the ancestor 249 ± 69 thousand years ago. The ancestor of the genus Orthopoxvirus was next to diverge from the other clades at 0.3 million years ago. A second estimate of this divergence time places this event at 166,000 ± 43,000 years ago. The division of the Orthopox into the extant genera occurred ~14,000 years ago. The genus Leporipoxvirus diverged ~137,000 ± 35,000 years ago. This was followed by the ancestor of the genus Yatapoxvirus. The last common ancestor of the Capripoxvirus and Suipoxvirus diverged 111,000 ± 29,000 years ago.

Poxvirus Pov-Ray model 2

A model of a poxvirus cut-away in
cross-section to show the internal
structures. Poxviruses are shaped like
flattened capsules/barrels or are lens or
pill-shaped.

Poxvirus Pov-Ray model 3

Their structure is complex,
neither icosahedral nor helical. This
model is based on Vaccinia, the smallpox
virus. The structures are also highly
variable and often incompletely studied.

 

35. West Nile Virus  West Nile virus (WNV) is a mosquito-borne zoonotic arbovirus belonging to the genus Flavivirus in the family Flaviviridae.

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This flavivirus is found in temperate and tropical regions of the world. It was first identified in the West Nile subregion in the East African nation of Uganda in 1937. Prior to the mid-1990s, WNV disease occurred only sporadically and was considered a minor risk for humans, until an outbreak in Algeria in 1994, with cases of WNV-caused encephalitis, and the first large outbreak in Romania in 1996, with a high number of cases with neuroinvasive disease. WNV has now spread globally, with the first case in the Western Hemisphere being identified in New York City in 1999; over the next five years, the virus spread across the continental United States, north into Canada, and southward into the Caribbean islands and Latin America. WNV also spread to Europe, beyond the Mediterranean Basin, and a new strain of the virus was identified in Italy in 2012. WNV is now considered to be an endemic pathogen in Africa, Asia, Australia, the Middle East, Europe and in the United States, which in 2012 has experienced one of its worst epidemics. In 2012, WNV killed 286 people in the United States, with the state of Texas being hard hit by this virus, making the year the deadliest on record for the United States.

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The main mode of WNV transmission is via various species of mosquitoes, which are the prime vector, with birds being the most commonly infected animal and serving as the prime reservoir host—especially passerines, which are of the largest order of birds, Passeriformes. WNV has been found in various species of ticks, but current research suggests they are not important vectors of the virus. WNV also infects various mammal species, including humans, and has been identified in reptilian species, including alligators and crocodiles, and also in amphibians. Not all animal species that are susceptible to WNV infection, including humans, and not all bird species develop sufficient viral levels to transmit the disease to uninfected mosquitoes, and are thus not considered major factors in WNV transmission.

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Approximately 80% of West Nile virus infections in humans are subclinical, which cause no symptoms. In the cases where symptoms do occur—termed West Nile fever in cases without neurological disease—the time from infection to the appearance of symptoms (incubation period) is typically between 2 and 15 days. Symptoms may include fever, headaches, fatigue, muscle pain or aches, malaise, nausea, anorexia, vomiting, myalgias and rash. Less than 1% of the cases are severe and result in neurological disease when the central nervous system is affected. People of advanced age, the very young, or those with immunosuppression, either medically induced, such as those taking immunosupressive drugs, or due to a pre-existing medical condition such as HIV infection, are most susceptible. The specific neurological diseases that may occur are West Nile encephalitis, which causes inflammation of the brain, West Nile meningitis, which causes inflammation of the meninges, which are the protective membranes that cover the brain and spinal cord, West Nile meningoencephalitis, which causes inflammation of the brain and also the meninges surrounding it, and West Nile poliomyelitis—spinal cord inflammation, which results in a syndrome similar to polio, which may cause acute flaccid paralysis.

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Currently, no vaccine against WNV infection is available. The best method to reduce the rates of WNV infection is mosquito control on the part of municipalities, businesses and individual citizens to reduce breeding populations of mosquitoes in public, commercial and private areas via various means including eliminating standing pools of water where mosquitoes breed, such as in old tires, buckets, unused swimming pools, etc. On an individual basis, the use of personal protective measures to avoid being bitten by an infected mosquito, via the use of mosquito repellent, window screens, avoiding areas where mosquitoes are more prone to congregate, such as near marshes, areas with heavy vegetation etc., and being more vigilant from dusk to dawn when mosquitoes are most active offers the best defense. In the event of being bitten by an infected mosquito, familiarity of the symptoms of WNV on the part of laypersons, physicians and allied health professions affords the best chance of receiving timely medical treatment, which may aid in reducing associated possible complications and also appropriate palliative care.

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The incubation period for WNV—the amount of time from infection to symptom onset—is typically from between 2 and 15 days. Headache can be a prominent symptom of WNV fever, meningitis, encephalitis, meningoencephalitis, and it may or may not be present in poliomyelytis-like syndrome. Thus, headache is not a useful indicator of neuroinvasive disease.(CDC)

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  • West Nile virus encephalitis (WNE) is the most common neuroinvasive manifestation of WNND. WNE presents with similar symptoms to other viral encephalitis with fever, headaches, and altered mental status. A prominent finding in WNE is muscular weakness (30 to 50 percent of patients with encephalitis), often with lower motor neuron symptoms, flaccid paralysis, and hyporeflexia with no sensory abnormalities.
  • West Nile meningitis (WNM) usually involves fever, headache, and stiff neck. Pleocytosis, an increase of white blood cells in cerebrospinal fluid, is also present. Changes in consciousness are not usually seen and are mild when present.
  • West Nile meningoencephalitis is inflammation of both the brain (encephalitis) and meninges (meningitis).
  • West Nile poliomyelitis (WNP), an acute flaccid paralysis syndrome associated with WNV infection, is less common than WNM or WNE. This syndrome is generally characterized by the acute onset of asymmetric limb weakness or paralysis in the absence of sensory loss. Pain sometimes precedes the paralysis. The paralysis can occur in the absence of fever, headache, or other common symptoms associated with WNV infection. Involvement of respiratory muscles, leading to acute respiratory failure, can sometimes occur.
  • West-Nile reversible paralysis,. Like WNP, the weakness or paralysis is asymmetric. Reported cases have been noted to have an initial preservation of deep tendon reflexes, which is not expected for a pure anterior horn involvement.Disconnect of upper motor neuron influences on the anterior horn cells possibly by myelitis or glutamate excitotoxicity have been suggested as mechanisms.The prognosis for recovery is excellent.
  • Cutaneous manifestations specifically rashes, are not uncommon in WNV-infected patients; however, there is a paucity of detailed descriptions in case reports and there are few clinical images widely available. Punctate erythematous (?), macular, and papular eruptions, most pronounced on the extremities have been observed in WNV cases and in some cases histopathologic findings have shown a sparse superficial perivascular lymphocytic infiltrate, a manifestation commonly seen in viral exanthems (?). A literature review provides support that this punctate rash is a common cutaneous presentation of WNV infection. (Anderson RC et al.)

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West Nile virus life cycle. After binding and uptake, the virion envelope fuses with cellular membranes, followed by uncoating of the nucleocapsid and release of the RNA genome into the cytoplasm. The viral genome serves as messenger RNA (mRNA) for translation of all viral proteins and as template during RNA replication. Copies are subsequently packaged within new virus particles that are transported in vesicles to the cell membrane.

WNV_life_cycle

WNV is one of the Japanese encephalitis antigenic serocomplex of viruses. Image reconstructions and cryoelectron microscopy reveal a 45–50 nm virion covered with a relatively smooth protein surface. This structure is similar to the dengue fever virus; both belong to the genus Flavivirus within the family Flaviviridae.

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The genetic material of WNV is a positive-sense, single strand of RNA, which is between 11,000 and 12,000 nucleotides long; these genes encode seven nonstructural proteins and three structural proteins. The RNA strand is held within a nucleocapsid formed from 12-kDa protein blocks; the capsid is contained within a host-derived membrane altered by two viral glycoproteins. Phylogenetic tree of West Nile viruses based on sequencing of the envelope gene during complete genome sequencing of the virus

Phylogenetic_tree_of_West_Nile_viruses

Studies of phylogenetic lineages determined WNV emerged as a distinct virus around 1000 years ago. This initial virus developed into two distinct lineages, lineage 1 and its multiple profiles is the source of the epidemic transmission in Africa and throughout the world. Lineage 2 was considered an Africa zoonosis. However, in 2008, lineage 2, previously only seen in horses in sub-Saharan Africa and Madagascar, began to appear in horses in Europe, where the first known outbreak affected 18 animals in Hungary in 2008. Lineage 1 West Nile virus was detected in South Africa in 2010 in a mare and her aborted fetus; previously, only lineage 2 West Nile virus had been detected in horses and humans in South Africa. A 2007 fatal case in a killer whale in Texas broadened the known host range of West Nile virus to include cetaceans.

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The United States virus was very closely related to a lineage 1 strain found in Israel in 1998. Since the first North American cases in 1999, the virus has been reported throughout the United States, Canada, Mexico, the Caribbean, and Central America. There have been human cases and equine cases, and many birds are infected. The Barbary macaque, Macaca sylvanus, was the first nonhuman primate to contract WNV.  Both the United States and Israeli strains are marked by high mortality rates in infected avian populations; the presence of dead birds—especially Corvidae—can be an early indicator of the arrival of the virus.

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The West Nile virus maintains itself in nature by cycling between mosquitoes and certain species of birds. A mosquito (the vector) bites an uninfected bird (the host), the virus amplifies within the bird, an uninfected mosquito bites the bird and is in turn infected. Other species such as humans and horses are incidental infections, as they are not the mosquitoes’ preferred blood meal source. The virus does not amplify within these species and they are known as dead-end hosts.

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The West Nile virus (WNV) is transmitted through female mosquitoes, which are the prime vectors of the virus. Only females feed on blood, and different species have evolved to take a blood meal on preferred types of vertebrate hosts. The infected mosquito species vary according to geographical area; in the United States, Culex pipiens (Eastern United States), Culex tarsalis (Midwest and West), and Culex quinquefasciatus (Southeast) are the main sources.The various species that transmit the WNV prefer birds of the Passeriformes order, the largest order of birds. Within that order there is further selectivity with various mosquito species exhibiting preference for different species. In the United States WNV mosquito vectors have shown definitive preference for members of the Corvidae and Thrush family of birds. Amongst the preferred species within these families are the American crow, a corvid, and the American robin (Turdus migratorius), a thrush.

The proboscis of a female mosquito—here a Southern House Mosquito (Culex quinquefasciatus)—pierces the epidermis and dermis to allow it to feed on human blood from a capillary: this one is almost fully tumescent. The mosquito injects saliva, which contains an anesthetic, and an anticoagulant into the puncture wound; and in infected mosquitoes, the West Nile virus.

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The birds develop sufficient viral levels after being infected, to transmit the infection to other biting mosquitoes that in turn go on to infect other birds. In crows and robins, the infection is fatal in 4–5 days. This epizootic viral amplification cycle has been shown to peak 15–16 days before humans become ill. This may be due to the high mortality, and thus depletion of the preferred hosts, i.e., the specific bird species. The mosquitoes become less selective and begin feeding more readily on other animal types such as humans and horses which are considered incidental hosts.

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In mammals, the virus does not multiply as readily (i.e., does not develop high viremia during infection), and mosquitoes biting infected mammals are not believed to ingest sufficient virus to become infected,making mammals so-called dead-end hosts.

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Direct human-to-human transmission initially was believed to be caused only by occupational exposure, or conjunctive exposure to infected blood. The US outbreak identified additional transmission methods through blood transfusion,organ transplant intrauterine exposure, and breast feeding. Since 2003, blood banks in the United States routinely screen for the virus among their donors. As a precautionary measure, the UK’s National Blood Service initially ran a test for this disease in donors who donate within 28 days of a visit to the United States, Canada or the northeastern provinces of Italy and the Scottish National Blood Transfusion Service asks prospective donors to wait 28 days after returning from North America or the northeastern provinces of Italy before donating.

West Nile Virus Replication

Recently, the potential for mosquito saliva to impact the course of WNV disease was demonstrated. Mosquitoes inoculate their saliva into the skin while obtaining blood. Mosquito saliva is a pharmacological cocktail of secreted molecules, principally proteins, that can affect vascular constriction, blood coagulation, platelet aggregation, inflammation, and immunity. It clearly alters the immune response in a manner that may be advantageous to a virus. Studies have shown it can specifically modulate the immune response during early virus infection, and mosquito feeding can exacerbate WNV infection, leading to higher viremia and more severe forms of disease.

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Vertical transmission, the transmission of a viral or bacterial disease from the female of the species to her offspring, has been observed in various West Nile virus studies, amongst different species of mosquitoes in both the laboratory and in nature.Mosquito progeny infected vertically in autumn, may potentially serve as a mechanism for WNV to overwinter and initiate enzootic horizontal transmission the following spring.


35 of the Most Dangerous Viruses and Bacteria’s in the World Today

The Black Plague, Marburg, Ebola, Influenza, Enterovirus virus may all sound terrifying, but it’s not the most dangerous virus in the world. It isn’t HIV either. Here is a list of the most dangerous viruses and Bacteria’s on the Planet Earth.

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1. Marburg Virus The most dangerous virus is the Marburg virus. It is named after a small and idyllic town on the river Lahn – but that has nothing to do with the disease itself. The Marburg virus is a hemorrhagic fever virus. As with Ebola, the Marburg virus causes convulsions and bleeding of mucous membranes, skin and organs. It has a fatality rate of 90 percent.  The Marburg virus causes a rare, but severe hemorrhagic fever that has a fatality rate of 88%. It was first identified in 1967 when outbreaks of hemorrhagic fever cropped up simultaneously in Marburg, where the disease got its name, Frankfurt in Germany and Belgrade, Serbia.

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Marburg and Ebola came from the Filoviridae family of viruses. They both have the capacity to cause dramatic outbreaks with the greatest fatality rates. It is transmitted to humans from fruit bats and spreads to humans through direct contact with the blood, secretions and other bodily fluids of infected humans. No anti-viral treatment or vaccine exists against the Marburg virus. In 1967, a group of lab workers in Germany (Marburg and Frankfurt) and Serbia (then Yugoslavia) contracted a new type of hemorrhagic fever from some virus-carrying African green monkeys that had been imported for research and development of polio vaccines. The Marburg virus is also BSL-4, and Marburg hemorrhagic fever has a 23 to 90 percent fatality rate. Spread through close human-to-human contact, symptoms start with a headache, fever, and a rash on the trunk, and progress to multiple organ failure and massive internal bleeding.

There is no cure, and the latest cases were reported out of Uganda at the end of 2012. An American tourist who had explored a Ugandan cave full of fruit bats known to be reservoirs of the virus contracted it and survived in 2008. (But not before bringing his sick self back to the U.S.)

2. Ebola Virus  There are five strains of the Ebola virus, each named after countries and regions in Africa: Zaire, Sudan, Tai Forest, Bundibugyo and Reston. The Zaire Ebola virus is the deadliest, with a mortality rate of 90 percent. It is the strain currently spreading through Guinea, Sierra Leone and Liberia, and beyond. Scientists say flying foxes probably brought the Zaire Ebola virus into cities.

Typically less than 100 lives a year. UPDATE: A severe Ebola outbreak was detected in West Africa in March 2014. The number of deaths in this latest outbreak has outnumbered all other known cases from previous outbreaks combined. The World Health Organization is reporting nearly 2,000 deaths in this latest outbreak.
Once a person is infected with the virus, the disease has an incubation period of 2-21 days; however, some infected persons are asymptomatic. Initial symptoms are sudden malaise, headache, and muscle pain, progressing to high fever, vomiting, severe hemorrhaging (internally and out of the eyes and mouth) and in 50%-90% of patients, death, usually within days. The likelihood of death is governed by the virulence of the particular Ebola strain involved. Ebola virus is transmitted in body fluids and secretions; there is no evidence of transmission by casual contact. There is no vaccine and no cure.

Its melodic moniker may roll off the tongue, but if you contract the virus (above), that’s not the only thing that will roll off one of your body parts (a disturbing amount of blood coming out of your eyes, for instance). Four of the five known Ebola viral strains cause Ebola hemorrhagic fever (EHF), which has killed thousands of people in sub-Saharan African nations since its discovery in 1976.

The deadly virus is named after the Ebola River in the Democratic Republic of the Congo where it was first reported, and is classified as a CDC Biosafety Level 4, a.k.a. BSL-4, making it one of the most dangerous pathogens on the planet. It is thought to spread through close contact with bodily secretions. EHF has a 50 to 90 percent mortality rate, with a rapid onset of symptoms that start with a headache and sore throat and progress to major internal and external bleeding and multiple organ failure. There’s no known cure, and the most recent cases were reported at the end of 2012 in Uganda.

3. The Hantavirus describes several types of viruses. It is named after a river where American soldiers were first thought to have been infected with the Hantavirus, during the Korean War in 1950. Symptoms include lung disease, fever and kidney failure.

70,000 Deaths a Year
Hantavirus pulmonary syndrome (HPS) is a deadly disease transmitted by infected rodents through urine, droppings, or saliva. Humans can contract the disease when they breathe in aerosolized virus. HPS was first recognized in 1993 and has since been identified throughout the United States. Although rare, HPS is potentially deadly. Rodent control in and around the home remains the primary strategy for preventing hantavirus infection. Also known as House Mouse Flu. The symptoms, which are very similar to HFRS, include tachycardia and tachypnea. Such conditions can lead to a cardiopulmonary phase, where cardiovascular shock can occur, and hospitalization of the patient is required.

There are many strains of hantavirus floating around (yep, it’s airborne) in the wake of rodents that carry the virus. Different strains, carried by different rodent species, are known to cause different types of illnesses in humans, most notably hemorrhagic fever with renal syndrome (HFRS)—first discovered during the Korean War—and hantavirus pulmonary syndrome (HPS), which reared its ugly head with a 1993 outbreak in the Southwestern United States. Severe HFRS causes acute kidney failure, while HPS gets you by filling your lungs with fluid (edema). HFRS has a mortality rate of 1 to 15 percent, while HPS is 38 percent. The U.S. saw its most recent outbreak of hantavirus—of the HPS variety—at Yosemite National Park in late 2012.

4. Avian Influenza Bird Flu The various strains of bird flu regularly cause panic – which is perhaps justified because the mortality rate is 70 percent. But in fact the risk of contracting the H5N1 strain – one of the best known – is quite low. You can only be infected through direct contact with poultry. It is said this explains why most cases appear in Asia, where people often live close to chickens.

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This form of the flu is common among birds (usually poultry) and infects humans through contact with secretions of an infected bird.

Although rare, those infected have a high incidence of death. Symptoms are like those of the more common human form of influenza.

Bird flu (H5N1) has receded from international headlines for the moment, as few human cases of the deadly virus have been reported this year. But when Dutch researchers recently created an even more transmissible strain of the virus in a laboratory for research purposes, they stirred grave concerns about what would happen if it escaped into the outside world. “Part of what makes H5N1 so deadly is that most people lack an immunity to it,” explains Marc Lipsitch, a professor of epidemiology at Harvard School of Public Health (HSPH) who studies the spread of infectious diseases. “If you make a strain that’s highly transmissible between humans, as the Dutch team did, it could be disastrous if it ever escaped the lab.”

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H5N1 first made global news in early 1997 after claiming two dozen victims in Hong Kong. The virus normally occurs only in wild birds and farm-raised fowl, but in those isolated early cases, it made the leap from birds to humans. It then swept unimpeded through the bodies of its initial human victims, causing massive hemorrhages in the lungs and death in a matter of days. Fortunately, during the past 15 years, the virus has claimed only 400 victims worldwide—although the strain can jump species, it hasn’t had the ability to move easily from human to human, a critical limit to its spread.

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That’s no longer the case, however. In late 2011, the Dutch researchers announced the creation of an H5N1 virus transmissible through the air between ferrets (the best animal model for studying the impact of disease on humans). The news caused a storm of controversy in the popular press and heated debate among scientists over the ethics of the work. For Lipsitch and many others, the creation of the new strain was cause for alarm. “H5N1 influenza is already one of the most deadly viruses in existence,” he says. “If you make [the virus] transmissible [between humans], you have to be very concerned about what the resulting strain could do.”

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To put this danger in context, the 1918 “Spanish” flu—one of the most deadly influenza epidemics on record—killed between 50 million and 100 million people worldwide, or roughly 3 to 6 percent of those infected. The more lethal SARS virus (see “The SARS Scare,” March-April 2007, page 47) killed almost 10 percent of infected patients during a 2003 outbreak that reached 25 countries worldwide. H5N1 is much more dangerous, killing almost 60 percent of those who contract the illness.

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If a transmissible strain of H5N1 escapes the lab, says Lipsitch, it could spark a global health catastrophe. “It could infect millions of people in the United States, and very likely more than a billion people globally, like most successful flu strains do,” he says. “This might be one of the worst viruses—perhaps the worst virus—in existence right now because it has both transmissibility and high virulence.”

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Ironically, this is why Ron Fouchier, the Dutch virologist whose lab created the new H5N1 strain, argues that studying it in more depth is crucial. If the virus can be made transmissible in the lab, he reasons, it can also occur in nature—and researchers should have an opportunity to understand as much as possible about the strain before that happens.

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Lipsitch, who directs the Center for Communicable Disease Dynamics at HSPH, thinks the risks far outweigh the rewards. Even in labs with the most stringent safety requirements, such as enclosed rubber “space suits” to isolate researchers, accidents do happen. A single unprotected breath could infect a researcher, who might unknowingly spread the virus beyond the confines of the lab.

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In an effort to avoid this scenario, Lipsitch has been pushing for changes in research policy in the United States and abroad. (A yearlong, voluntary global ban on H5N1 research was lifted in many countries in January, and new rules governing such research in the United States were expected in February.) Lipsitch says that none of the current research proposals he has seen “would significantly improve our preparational response to a national pandemic of H5N1. The small risk of a very large public health disaster…is not worth taking [for] scientific knowledge without an immediate public health application.” His recent op-eds in scientific journals and the popular press have stressed the importance of regulating the transmissible strain and limiting work with the virus to only a handful of qualified labs. In addition, he argues, only technicians who have the right training and experience—and have been inoculated against the virus—should be allowed to handle it.

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These are simple limitations that could drastically reduce the danger of the virus spreading, he asserts, yet they’re still not popular with some researchers. He acknowledges that limiting research is an unusual practice scientifically but argues, “These are unusual circumstances.”

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Lipsitch thinks a great deal of useful research can still be done on the non-transmissible strain of the virus, which would provide valuable data without the risk of accidental release. In the meantime, he hopes to make more stringent H5N1 policies a priority for U.S. and foreign laboratories. Although it’s not a perfect solution, he says, it’s far better than a nightmare scenario.

5. Lassa Virus  A nurse in Nigeria was the first person to be infected with the Lassa virus. The virus is transmitted by rodents. Cases can be endemic – which means the virus occurs in a specific region, such as in western Africa, and can reoccur there at any time. Scientists assume that 15 percent of rodents in western Africa carry the virus.

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The Marburg virus under a microscope

This BSL-4 virus gives us yet another reason to avoid rodents. Lassa is carried by a species of rat in West Africa called Mastomys. It’s airborne…at least when you’re hanging around the rat’s fecal matter. Humans, however, can only spread it through direct contact with bodily secretions. Lassa fever, which has a 15 to 20 percent mortality rate, causes about 5000 deaths a year in West Africa, particularly in Sierra Leone and Liberia.

It starts with a fever and some retrosternal pain (behind the chest) and can progress to facial swelling, encephalitis, mucosal bleeding and deafness. Fortunately, researchers and medical professionals have found some success in treating Lassa fever with an antiviral drug in the early stages of the disease.

6. The Junin Virus is associated with Argentine hemorrhagic fever. People infected with the virus suffer from tissue inflammation, sepsis and skin bleeding. The problem is that the symptoms can appear to be so common that the disease is rarely detected or identified in the first instance.

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A member of the genus Arenavirus, Junin virus characteristically causes Argentine hemorrhagic fever (AHF). AHF leads to major alterations within the vascular, neurological and immune systems and has a mortality rate of between 20 and 30%.  Symptoms of the disease are conjunctivitis, purpura, petechia and occasional sepsis. The symptoms of the disease are relatively indistinct and may therefore be mistaken for a different condition.

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Since the discovery of the Junin virus in 1958, the geographical distribution of the pathogen, although still confined to Argentina, has risen. At the time of discovery, Junin virus was confined to an area of around 15,000 km². At the beginning of 2000, the distribution had risen to around 150,000 km². The natural hosts of Junin virus are rodents, particularly Mus musculus, Calomys spp. and Akodon azarae.

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Direct rodent to human transmission only transpires when contact is made with excrement of an infected rodent. This commonly occurs via ingestion of contaminated food or water, inhalation of particles within urine or via direct contact of broken skin with rodent excrement.

7. The Crimea-Congo Fever Virus is transmitted by ticks. It is similar to the Ebola and Marburg viruses in the way it progresses. During the first days of infection, sufferers present with pin-sized bleedings in the face, mouth and the pharynx.

Transmitted through tick bites this disease is endemic (consistently present)  in most countries of West Africa and the Middle East. Although rare, CCHF has a 30% mortality rate. The most recent outbreak of the disease was in 2005 in Turkey. The Crimean-Congo hemorrhagic fever is a common disease transmitted by a tick-Bourne virus. The virus causes major hemorrhagic fever outbreaks with a fatality rate of up to 30%. It is chiefly transmitted to people through tick and livestock. Person-to-person transmission occurs through direct contact with the blood, secretions and other bodily fluids of an infected person. No vaccination exists for both humans and animals against CCHF.

8. The Machupo Virus is associated with Bolivian hemorrhagic fever, also known as black typhus. The infection causes high fever, accompanied by heavy bleedings. It progresses similar to the Junin virus. The virus can be transmitted from human to human, and rodents often the carry it.

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Bolivian hemorrhagic fever (BHF), also known as black typhus or Ordog Fever, is a hemorrhagic fever and zoonotic infectious disease originating in Bolivia after infection by Machupo virus.BHF was first identified in 1963 as an ambisense RNA virus of the Arenaviridae family,by a research group led by Karl Johnson. The mortality rate is estimated at 5 to 30 percent.

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Due to its pathogenicity, Machupo virus requires Biosafety Level Four conditions, the highest level.In February and March 2007, some 20 suspected BHF cases (3 fatal) were reported to the El Servicio Departmental de Salud (SEDES) in Beni Department, Bolivia, and in February 2008, at least 200 suspected new cases (12 fatal) were reported to SEDES.In November 2011, a SEDES expert involved in a serosurvey to determine the extent of Machupo virus infections in the Department after the discovery of a second confirmed case near the departmental capital of Trinidad in November, 2011, expressed concern about expansion of the virus’ distribution outside the endemic zone in Mamoré and Iténez provinces.

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Bolivian hemorrhagic fever was one of three hemorrhagic fevers and one of more than a dozen agents that the United States researched as potential biological weapons before the nation suspended its biological weapons program. It was also under research by the Soviet Union, under the Biopreparat bureau.

9. Kyasanur Forest Virus  Scientists discovered the Kyasanur Forest Virus (KFD) virus in woodlands on the southwestern coast of India in 1955. It is transmitted by ticks, but scientists say it is difficult to determine any carriers. It is assumed that rats, birds and boars could be hosts. People infected with the virus suffer from high fever, strong headaches and muscle pain which can cause bleedings.

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The disease has a morbidity rate of 2-10%, and affects 100-500 people annually.The symptoms of the disease include a high fever with frontal headaches, followed by hemorrhagic symptoms, such as bleeding from the nasal cavity, throat, and gums, as well as gastrointestinal bleeding.An affected person may recover in two weeks time, but the convalescent period is typically very long, lasting for several months. There will be muscle aches and weakness during this period and the affected person is unable to engage in physical activities.

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There are a variety of animals thought to be reservoir hosts for the disease, including porcupines, rats, squirrels, mice and shrews. The vector for disease transmission is Haemaphysalis spinigera, a forest tick. Humans contract infection from the bite of nymphs of the tick.

Kyasanur Forest Disease Host

The disease was first reported from Kyasanur Forest of Karnataka in India in March 1957. The disease first manifested as an epizootic outbreak among monkeys killing several of them in the year 1957. Hence the disease is also locally known as Monkey Disease or Monkey Fever. The similarity with Russian Spring-summer encephalitis was noted and the possibility of migratory birds carrying the disease was raised. Studies began to look for the possible species that acted as reservoirs for the virus and the agents responsible for transmission. Subsequent studies failed to find any involvement of migratory birds although the possibility of their role in initial establishment was not ruled out. The virus was found to be quite distinctive and not closely related to the Russian virus strains.

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Antigenic relatedness is however close to many other strains including the Omsk hemorrhagic fever (OHF) and birds from Siberia have been found to show an antigenic response to KFD virus. Sequence based studies however note the distinctiveness of OHF.Early studies in India were conducted in collaboration with the US Army Medical Research Unit and this led to controversy and conspiracy theories.

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Subsequent studies based on sequencing found that the Alkhurma virus, found in Saudi Arabia is closely related. In 1989 a patient in Nanjianin, China was found with fever symptoms and in 2009 its viral gene sequence was found to exactly match with that of the KFD reference virus of 1957. This has however been questioned since the Indian virus shows variations in sequence over time and the exact match with the virus sequence of 1957 and the Chinese virus of 1989 is not expected.

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This study also found using immune response tests that birds and humans in the region appeared to have been exposed to the virus.Another study has suggested that the virus is recent in origin dating the nearest common ancestor of it and related viruses to around 1942, based on the estimated rate of sequence substitutions. The study also raises the possibility of bird involvement in long-distance transfer. It appears that these viruses diverged 700 years ago.

10. Dengue Fever is a constant threat. If you’re planning a holiday in the tropics, get informed about dengue. Transmitted by mosquitoes, dengue affects between 50 and 100 million people a year in popular holiday destinations such as Thailand and India. But it’s more of a problem for the 2 billion people who live in areas that are threatened by dengue fever.

25,000 Deaths a year Also known as ‘breakbone fever’ due to the extreme pain felt during fever, is an relatively new disease caused by one of four closely-related viruses. WHO estimates that a whopping 2.5 billion people (two fifths of the World’s population) are at risk from dengue. It puts the total number of infections at around 50 million per year, and is now epidemic in more than 100 countries.


Dengue viruses are transferred to humans through the bites of infective female Aedes mosquitoes. The dengue virus circulates in the blood of a human for two to seven days, during the same time they have the fever. It usually appears first on the lower limbs and the chest; in some patients, it spreads to cover most of the body. There may also be severe retro-orbital pain, (a pain from behind the eyes that is distinctive to Dengue infections), and gastritis with some combination of associated abdominal pain, nausea, vomiting coffee-grounds-like congealed blood, or severe diarrhea.

The leading cause of death in the tropics and subtropics is the infection brought on by the dengue virus, which causes a high fever, severe headache, and, in the worst cases, hemorrhaging. The good news is that it’s treatable and not contagious. The bad news is there’s no vaccine, and you can get it easily from the bite of an infected mosquito—which puts at least a third of the world’s human population at risk. The CDC estimates that there are over 100 million cases of dengue fever each year. It’s a great marketing tool for bug spray.

11. HIV 3.1 Million Lives a Year Human Immunodeficiency Virus has claimed the lives of more than 25 million people since 1981. HIV gets to the immune system by infecting important cells, including helper cells called CD4+ T cells, plus macrophanges and dendritic cells. Once the virus has taken hold, it systematically kills these cells, damaging the infected person’s immunity and leaving them more at risk from infections.

The majority of people infected with HIV go on to develop AIDS. Once a patient has AIDS common infections and tumours normally controlled by the CD4+ T cells start to affect the person.  
In the latter stages of the disease, pneumonia and various types of herpes can infect the patient and cause death.

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Human immunodeficiency virus infection / acquired immunodeficiency syndrome (HIV/AIDS) is a disease of the human immune system caused by infection with human immunodeficiency virus (HIV). The term HIV/AIDS represents the entire range of disease caused by the human immunodeficiency virus from early infection to late stage symptoms. During the initial infection, a person may experience a brief period of influenza-like illness. This is typically followed by a prolonged period without symptoms. As the illness progresses, it interferes more and more with the immune system, making the person much more likely to get infections, including opportunistic infections and tumors that do not usually affect people who have working immune systems.

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HIV is transmitted primarily via unprotected sexual intercourse (including anal and oral sex), contaminated blood transfusions, hypodermic needles, and from mother to child during pregnancy, delivery, or breastfeeding. Some bodily fluids, such as saliva and tears, do not transmit HIV. Prevention of HIV infection, primarily through safe sex and needle-exchange programs, is a key strategy to control the spread of the disease. There is no cure or vaccine; however, antiretroviral treatment can slow the course of the disease and may lead to a near-normal life expectancy. While antiretroviral treatment reduces the risk of death and complications from the disease, these medications are expensive and have side effects. Without treatment, the average survival time after infection with HIV is estimated to be 9 to 11 years, depending on the HIV subtype.

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Genetic research indicates that HIV originated in west-central Africa during the late nineteenth or early twentieth century. AIDS was first recognized by the United States Centers for Disease Control and Prevention (CDC) in 1981 and its cause—HIV infection—was identified in the early part of the decade. Since its discovery, AIDS has caused an estimated 36 million deaths worldwide (as of 2012). As of 2012, approximately 35.3 million people are living with HIV globally. HIV/AIDS is considered a pandemic—a disease outbreak which is present over a large area and is actively spreading.

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HIV/AIDS has had a great impact on society, both as an illness and as a source of discrimination. The disease also has significant economic impacts. There are many misconceptions about HIV/AIDS such as the belief that it can be transmitted by casual non-sexual contact. The disease has also become subject to many controversies involving religion. It has attracted international medical and political attention as well as large-scale funding since it was identified in the 1980s

 

12. Rotavirus 61,000 Lives a Year  According to the WHO, this merciless virus causes the deaths of more than half a million children every year. In fact, by the age of five, virtually every child on the planet has been infected with the virus at least once. Immunity builds up with each infection, so subsequent infections are milder. However, in areas where adequate healthcare is limited the disease is often fatal. Rotavirus infection usually occurs through ingestion of contaminated stool.

Because the virus is able to live a long time outside of the host, transmission can occur through ingestion of contaminated food or water, or by coming into direct contact with contaminated surfaces, then putting hands in the mouth.
Once it’s made its way in, the rotavirus infects the cells that line the small intestine and multiplies. It emits an enterotoxin, which gives rise to gastroenteritis.

13. Smallpox   Officially eradicated – Due to it’s long history, it impossible to estimate the carnage over the millennia Smallpox localizes in small blood vessels of the skin and in the mouth and throat. In the skin, this results in a characteristic maculopapular rash, and later, raised fluid-filled blisters. It has an overall mortality rate of 30–35%. Smallpox is believed to have emerged in human populations about 10,000 BC. The disease killed an estimated 400,000 Europeans per year during the closing years of the 18th century (including five reigning monarchs), and was responsible for a third of all blindness. Of all those infected, 20–60%—and over 80% of infected children—died from the disease.
Smallpox was responsible for an estimated 300–500 million deaths during the 20th century alone. In the early 1950s an estimated 50 million cases of smallpox occurred in the world each year.

As recently as 1967, the World Health Organization (WHO) estimated that 15 million people contracted the disease and that two million died in that year. After successful vaccination campaigns throughout the 19th and 20th centuries, the WHO certified the eradication of smallpox in December 1979.
Smallpox is one of only two infectious diseases to have been eradicated by humans, the other being Rinderpest, which was unofficially declared eradicated in October 2010.

The virus that causes smallpox wiped out hundreds of millions of people worldwide over thousands of years. We can’t even blame it on animals either, as the virus is only carried by and contagious for humans. There are several different types of smallpox disease that result from an infection ranging from mild to fatal, but it is generally marked by a fever, rash, and blistering, oozing pustules that develop on the skin. Fortunately, smallpox was declared eradicated in 1979, as the result of successful worldwide implementation of the vaccine.

14. Hepatitis B  521,000 Deaths a Year A third of the World’s population (over 2 billion people) has come in contact with this virus, including 350 million chronic carriers. In China and other parts of Asia, up to 10% of the adult population is chronically infected. The symptoms of acute hepatitis B include yellowing of the skin of eyes, dark urine, vomiting, nausea, extreme fatigue, and abdominal pain.

Luckily, more than 95% of people who contract the virus as adults or older children will make a full recovery and develop immunity to the disease. In other people, however, hepatitis B can bring on chronic liver failure due to cirrhosis or cancer.

Hepatitis B is an infectious illness of the liver caused by the hepatitis B virus (HBV) that affects hominoidea, including humans. It was originally known as "serum hepatitis". Many people have no symptoms during the initial infected. Some develop an acute illness with vomiting, yellow skin, dark urine and abdominal pain. Often these symptoms last a few weeks and rarely result in death. It may take 30 to 180 days for symptoms to begin. Less than 10% of those infected develop chronic hepatitis B. In those with chronic disease cirrhosis and liver cancer may eventually develop.

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The virus is transmitted by exposure to infectious blood or body fluidsInfection around the time of birth is the most common way the disease is acquired in areas of the world where is common. In areas where the disease is uncommon intravenous drug use and sex are the most common routes of infection. Other risk factors include working in a healthcare setting, blood transfusions, dialysis, sharing razors or toothbrushes with an infected person, travel in countries where it is common, and living in an institution.

Tattooing and acupuncture led to a significant number of cases in the 1980s; however, this has become less common with improved sterility. The hepatitis B viruses cannot be spread by holding hands, sharing eating utensils or drinking glasses, kissing, hugging, coughing, sneezing, or breastfeeding.  The hepatitis B virus is a hepadnavirushepa from hepatotropic (attracted to the liver) and dna because it is a DNA virus. The viruses replicate through an RNA intermediate form by reverse transcription, which in practice relates them to retroviruses.It is 50 to 100 times more infectious than HIV.

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The infection has been preventable by vaccination since 1982. During the initial infected care is based on the symptoms present. In those who developed chronic disease antiviral medication such as tenofovir or interferon maybe useful, however are expensive.

About a third of the world population has been infected at one point in their lives, including 350 million who are chronic carriers. Over 750,000 people die of hepatitis B a year. The disease has caused outbreaks in parts of Asia and Africa, and it is now only common in China. Between 5 and 10% of adults in sub-Saharan Africa and East Asia have chronic disease. Research is in progress to create edible HBV vaccines in foods such as potatoes, carrots, and bananas.In 2004, an estimated 350 million individuals were infected worldwide. National and regional prevalence ranges from over 10% in Asia to under 0.5% in the United States and northern Europe. Routes of infection include vertical transmission (such as through childbirth), early life horizontal transmission (bites, lesions, and sanitary habits), and adult horizontal transmission (sexual contact, intravenous drug use).

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The primary method of transmission reflects the prevalence of chronic HBV infection in a given area. In low prevalence areas such as the continental United States and Western Europe, injection drug abuse and unprotected sex are the primary methods, although other factors may also be important. In moderate prevalence areas, which include Eastern Europe, Russia, and Japan, where 2–7% of the population is chronically infected, the disease is predominantly spread among children. In high-prevalence areas such as China and South East Asia, transmission during childbirth is most common, although in other areas of high endemicity such as Africa, transmission during childhood is a significant factor. The prevalence of chronic HBV infection in areas of high endemicity is at least 8% with 10-15% prevalence in Africa/Far East. As of 2010, China has 120 million infected people, followed by India and Indonesia with 40 million and 12 million, respectively. According to World Health Organization (WHO), an estimated 600,000 people die every year related to the infection. In the United States about 19,000 new cases occurred in 2011 down nearly 90% from 1990.

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Acute infection with hepatitis B virus is associated with acute viral hepatitis – an illness that begins with general ill-health, loss of appetite, nausea, vomiting, body aches, mild fever, and dark urine, and then progresses to development of jaundice. It has been noted that itchy skin has been an indication as a possible symptom of all hepatitis virus types. The illness lasts for a few weeks and then gradually improves in most affected people. A few people may have more severe liver disease (fulminant hepatic failure), and may die as a result. The infection may be entirely asymptomatic and may go unrecognized.

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Chronic infection with hepatitis B virus either may be asymptomatic or may be associated with a chronic inflammation of the liver (chronic hepatitis), leading to cirrhosis over a period of several years. This type of infection dramatically increases the incidence of hepatocellular carcinoma (liver cancer). Across Europe hepatitis B and C cause approximately 50% of hepatocellular carcinomas. Chronic carriers are encouraged to avoid consuming alcohol as it increases their risk for cirrhosis and liver cancer. Hepatitis B virus has been linked to the development of membranous glomerulonephritis (MGN).

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Symptoms outside of the liver are present in 1–10% of HBV-infected people and include serum-sickness–like syndrome, acute necrotizing vasculitis (polyarteritis nodosa), membranous glomerulonephritis, and papular acrodermatitis of childhood (Gianotti–Crosti syndrome). The serum-sickness–like syndrome occurs in the setting of acute hepatitis B, often preceding the onset of jaundice. The clinical features are fever, skin rash, and polyarteritis. The symptoms often subside shortly after the onset of jaundice, but can persist throughout the duration of acute hepatitis B.  About 30–50% of people with acute necrotizing vasculitis (polyarteritis nodosa) are HBV carriers. HBV-associated nephropathy has been described in adults but is more common in children.Membranous glomerulonephritis is the most common form. Other immune-mediated hematological disorders, such as essential mixed cryoglobulinemia and aplastic anemia.

15. Influenza 500,000 Deaths a Year Influenza has been a prolific killer for centuries. The symptoms of influenza were first described more than 2,400 years ago by Hippocrates. Pandemics generally occur three times a century, and can cause millions of deaths. The most fatal pandemic on record was the Spanish flu outbreak in 1918, which caused between 20 million and 100 million deaths. In order to invade a host, the virus shell includes proteins that bind themselves to receptors on the outside of cells in the lungs and air passages of the victim. Once the virus has latched itself onto the cell it takes over so much of its machinery that the cell dies. Dead cells in the airways cause a runny nose and sore throat. Too many dead cells in the lungs causes death.

 
Vaccinations against the flu are common in developed countries. However, a vaccination that is effective one year may not necessarily work the next year, due to the way the rate at which a flu virus evolves and the fact that new strains will soon replace older ones. No virus can claim credit for more worldwide pandemics and scares than influenza.

The outbreak of the Spanish flu in 1918 is generally considered to be one of the worst pandemics in human history, infecting 20 to 40 percent of the world’s population and killing 50 million in the span of just two years. (A reconstruction of that virus is above.) The swine flu was its most recent newsmaker, when a 2009 pandemic may have seen as many as 89 million people infected worldwide.

Effective influenza vaccines exist, and most people easily survive infections. But the highly infectious respiratory illness is cunning—the virus is constantly mutating and creating new strains. Thousands of strains exist at any given time, many of them harmless, and vaccines available in the U.S. cover only about 40 percent of the strains at large each year.

16. Hepatitis C  56,000 Deaths a Year An estimated 200-300 million people worldwide are infected with hepatitis C.

 

Most people infected with hepatitis C don’t have any symptoms and feel fine for years. However, liver damage invariably rears its ugly head over time, often decades after first infection. In fact, 70% of those infected develop chronic liver disease, 15% are struck with cirrhosis and 5% can die from liver cancer or cirrhosis. In the USA, hepatitis C is the primary reason for liver transplants.

All-about-hepatitis-C

Hepatitis C is an infectious disease affecting primarily the liver, caused by the hepatitis C virus (HCV). The infection is often asymptomatic, but chronic infection can lead to scarring of the liver and ultimately to cirrhosis, which is generally apparent after many years. In some cases, those with cirrhosis will go on to develop liver failure, liver cancer, or life-threatening esophageal and gastric varices.

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HCV is spread primarily by blood-to-blood contact associated with intravenous drug use, poorly sterilized medical equipment, and transfusions. An estimated 150–200 million people worldwide are infected with hepatitis C. The existence of hepatitis C (originally identifiable only as a type of non-A non-B hepatitis) was suggested in the 1970s and proven in 1989. Hepatitis C infects only humans and chimpanzees.

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The virus persists in the liver in about 85% of those infected. This chronic infection can be treated with medication: the standard therapy is a combination of peginterferon and ribavirin, with either boceprevir or telaprevir added in some cases. Overall, 50–80% of people treated are cured. Those who develop cirrhosis or liver cancer may require a liver transplant. Hepatitis C is the leading reason for liver transplantation, though the virus usually recurs after transplantation. No vaccine against hepatitis C is available.

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Hepatitis C infection causes acute symptoms in 15% of cases. Symptoms are generally mild and vague, including a decreased appetite, fatigue, nausea, muscle or joint pains, and weight loss and rarely does acute liver failure result. Most cases of acute infection are not associated with jaundice. The infection resolves spontaneously in 10–50% of cases, which occurs more frequently in individuals who are young and female.

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About 80% of those exposed to the virus develop a chronic infection.  This is defined as the presence of detectable viral replication for at least six months. Most experience minimal or no symptoms during the initial few decades of the infection.Chronic hepatitis C can be associated with fatigue and mild cognitive problems. Chronic infection after several years may cause cirrhosis or liver cancer. The liver enzymes are normal in 7–53%.  Late relapses after apparent cure have been reported, but these can be difficult to distinguish from reinfection.

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Fatty changes to the liver occur in about half of those infected and are usually present before cirrhosis develops.  Usually (80% of the time) this change affects less than a third of the liver. Worldwide hepatitis C is the cause of 27% of cirrhosis cases and 25% of hepatocellular carcinoma.  About 10–30% of those infected develop cirrhosis over 30 years. Cirrhosis is more common in those also infected with hepatitis B, schistosoma, or HIV, in alcoholics and in those of male gender. In those with hepatitis C, excess alcohol increases the risk of developing cirrhosis 100-fold.Those who develop cirrhosis have a 20-fold greater risk of hepatocellular carcinoma. This transformation occurs at a rate of 1–3% per year.  Being infected with hepatitis B in additional to hepatitis C increases this risk further.

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Liver cirrhosis may lead to portal hypertension, ascites (accumulation of fluid in the abdomen), easy bruising or bleeding, varices (enlarged veins, especially in the stomach and esophagus), jaundice, and a syndrome of cognitive impairment known as hepatic encephalopathy. Ascites occurs at some stage in more than half of those who have a chronic infection.

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The most common problem due to hepatitis C but not involving the liver is mixed cryoglobulinemia (usually the type II form) — an inflammation of small and medium-sized blood vessels. Hepatitis C is also associated with Sjögren’s syndrome (an autoimmune disorder); thrombocytopenia; lichen planus; porphyria cutanea tarda; necrolytic acral erythema; insulin resistance; diabetes mellitus; diabetic nephropathy; autoimmune thyroiditis and B-cell lymphoproliferative disorders.  Thrombocytopenia is estimated to occur in 0.16% to 45.4% of people with chronic hepatitis C. 20–30% of people infected have rheumatoid factor — a type of antibody. Possible associations include Hyde’s prurigo nodularis and membranoproliferative glomerulonephritis. Cardiomyopathy with associated arrhythmias has also been reported. A variety of central nervous system disorders have been reported.  Chronic infection seems to be associated with an increased risk of pancreatic cancer.

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Persons who have been infected with hepatitis C may appear to clear the virus but remain infected. The virus is not detectable with conventional testing but can be found with ultra-sensitive tests.The original method of detection was by demonstrating the viral genome within liver biopsies, but newer methods include an antibody test for the virus’ core protein and the detection of the viral genome after first concentrating the viral particles by ultracentrifugation. A form of infection with persistently moderately elevated serum liver enzymes but without antibodies to hepatitis C has also been reported. This form is known as cryptogenic occult infection.

Causes of hep C(4)

Several clinical pictures have been associated with this type of infection. It may be found in people with anti-hepatitis-C antibodies but with normal serum levels of liver enzymes; in antibody-negative people with ongoing elevated liver enzymes of unknown cause; in healthy populations without evidence of liver disease; and in groups at risk for HCV infection including those on haemodialysis or family members of people with occult HCV. The clinical relevance of this form of infection is under investigation. The consequences of occult infection appear to be less severe than with chronic infection but can vary from minimal to hepatocellular carcinoma.

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The rate of occult infection in those apparently cured is controversial but appears to be low 40% of those with hepatitis but with both negative hepatitis C serology and the absence of detectable viral genome in the serum have hepatitis C virus in the liver on biopsy.How commonly this occurs in children is unknown.
There is no cure, no vaccine.

17. Measle  197,000 Deaths a Year Measles, also known as Rubeola, has done a pretty good job of killing people throughout the ages. Over the last 150 years, the virus has been responsible for the deaths of around 200 million people. The fatality rate from measles for otherwise healthy people in developed countries is 3 deaths per thousand cases, or 0.3%. In underdeveloped nations with high rates of malnutrition and poor healthcare, fatality rates have been as high as 28%. In immunocompromised patients (e.g. people with AIDS) the fatality rate is approximately 30%.

During the 1850s, measles killed a fifth of Hawaii’s people. In 1875, measles killed over 40,000 Fijians, approximately one-third of the population. In the 19th century, the disease decimated the Andamanese population. In 1954, the virus causing the disease was isolated from an 11-year old boy from the United States, David Edmonston, and adapted and propagated on chick embryo tissue culture.


To date, 21 strains of the measles virus have been identified.

18. Yellow Fever  30,000 Deaths a Year. Yellow fever is an acute viral hemorrhagic disease transmitted by the bite of female mosquitoes and is found in tropical and subtropical areas in South America and Africa. The only known hosts of the virus are primates and several species of mosquito. The origin of the disease is most likely to be Africa, from where it was introduced to South America through the slave trade in the 16th century. Since the 17th century, several major epidemics of the disease have been recorded in the Americas, Africa and Europe. In the 19th century, yellow fever was deemed one of the most dangerous infectious diseases.

Yellow fever presents in most cases with fever, nausea, and pain and it generally subsides after several days. In some patients, a toxic phase follows, in which liver damage with jaundice (giving the name of the disease) can occur and lead to death. Because of the increased bleeding tendency (bleeding diathesis), yellow fever belongs to the group of hemorrhagic fevers.

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Since the 1980s, the number of cases of yellow fever has been increasing, making it a reemerging disease Transmitted through infected mosquitoes, Yellow Fever is still a serious problem in countries all over the world and a serious health risk for travelers to Africa, South America and some areas in the Caribbean.  Fatality rates range from 15 to over 50%. Symptoms include high fever, headache, abdominal pain, fatigue, vomiting and nausea.

Yellow fever is a hemorrhagic fever transmitted by infected mosquitoes. The yellow is in reference to the yellow color (jaundice) that affects some patients. The virus is endemic in tropical areas in Africa and South America.

The disease typically occurs in two phases. The first phase typically causes fever, headache, muscle pain and back pain, chills and nausea. Most patients recover from these symptoms while 15% progresses to the toxic second phase. High fever returns, jaundice becomes apparent, patient complains of abdominal pain with vomiting, and bleeding in the mouth, eyes, nose or stomach occurs. Blood appears in the stool or vomit and kidney function deteriorates. 50% of the patients that enter the toxic phase die within 10 to 14 days.

There is no treatment for yellow fever. Patients are only given supportive care for fever, dehydration and respiratory failure. Yellow fever is preventable through vaccination.

19. Rabies  55,000 Deaths a Year Rabies is almost invariably fatal if post-exposure prophylaxis is not administered prior to the onset of severe symptoms. If there wasn’t a vaccine, this would be the most deadly virus on the list.

It is a zoonotic virus transmitted through the bite of an animal. The virus worms its way into the brain along the peripheral nerves. The incubation phase of the rabies disease can take up to several months, depending on how far it has to go to reach the central nervous system. It provokes acute pain, violent movements, depression, uncontrollable excitement, and inability to swallow water (rabies is often known as ‘hydrophobia’). After these symptoms subside the fun really starts as the infected person experiences periods of mania followed by coma then death, usually caused by respiratory insufficiency.

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Rabies has a long and storied history dating back to 2300 B.C., with records of Babylonians who went mad and died after being bitten by dogs. While this virus itself is a beast, the sickness it causes is now is wholly preventable if treated immediately with a series of vaccinations (sometimes delivered with a terrifyingly huge needle in the abdomen). We have vaccine inventor Louis Pasteur to thank for that.

Exposure to rabies these days, while rare in the U.S., still occurs as it did thousands of years ago—through bites from infected animals. If left untreated after exposure, the virus attacks the central nervous system and death usually results. The symptoms of an advanced infection include delirium, hallucinations and raging, violent behavior in some cases, which some have argued makes rabies eerily similar to zombification. If rabies ever became airborne, we might actually have to prepare for that zombie apocalypse after all.

21. Common Cold  No known cure The common cold is the most frequent infectious disease in humans with on average two to four infections a year in adults and up to 6–12 in children. Collectively, colds, influenza, and other infections with similar symptoms are included in the diagnosis of influenza-like illness.

They may also be termed upper respiratory tract infections (URTI). Influenza involves the lungs while the common cold does not.
It’s annoying as hell, but there’s nothing to do but wave the white flag on this one.
Virus: Infinity. People: 0

22. Anthrax  Anthrax is a diseased caused by a bacterium called Bacillus Anthracis. There are three types of anthrax, skin, lung, and digestive. Anthrax has lately become a major world issue for its ability to become an epidemic and spread quickly and easily among people through contact with spores.

Anthrax

It is important to know that  Anthrax is not spread from person to person, but is through contact/handling of products containing spores. Flu like symptoms, nausea, and blisters are common symptoms of exposure. Inhalational anthrax and gastrointestinal anthrax are serious issue because of their high mortality rates ranging from 50 to 100%.

Anthrax is a severe infectious disease caused by the bacteria Bacillus anthracis. This type of bacteria produces spores that can live for years in the soil. Anthrax is more common in farm animals, though humans can get infected as well. Anthrax is not contagious. A person can get infected only when the bacteria gets into the skin, lungs or  digestive tract.

There are three types of anthrax: skin anthrax, inhalation anthrax and gastrointestinal anthrax. Skin anthrax symptoms include fever, muscle aches, headache, nausea and vomiting. Inhalation anthrax begins with flu-like symptoms, which progresses  with severe respiratory distress. Shock, coma and then death follows. Most patients do not recover even if given appropriate antibiotics due to the toxins released by the anthrax bacteria. Gastrointestinal anthrax symptoms include fever, nausea, abdominal pain and bloody diarrhea.

Anthrax is treated with antibiotics.

23. Malaria  Malaria is a mosquito-borne illness caused by parasite. Although malaria can be prevented and treated, it is often fatal.

Malaria

Each year about 1 million people die from Malaria.  Common symptoms include fever, chills, headache. Sweats, and fatigue. Malaria is a serious disease caused by Plasmodium parasites that infects Anopheles mosquitoes which feeds on humans. Initial symptoms include high fever, shaking chills, headache and vomiting – symptoms that may be too  mild to be identified as malaria. If not treated within 24 hours, it can progress to severe illnesses that could lead to death.

The WHO estimates that malaria caused 207,000,000 clinical episodes and 627,000 deaths, mostly among African children,  in 2012. About 3.5 billion people from 167 countries live in areas at risk of malaria transmission.

24. Cholera  Due to the severe dehydration it causes, if left untreated Cholera can cause death within hours. In 1991 a major outbreak occurred in South America though currently few cases are known outside of Sub-Saharan Africa.

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Symptoms include severe diarrhea, vomiting and leg cramping. Cholera is usually contracted through ingestion of contaminated water or food. Cholera is an acute intestinal infection caused by a bacterium called Vibrio cholera. It has an incubation period of less than a day to five days and causes painless, watery diarrhea that quickly leads to severe dehydration and death if treatment is not promptly given.

Cholera remains a global problem and continues to be a challenge for countries where access to safe drinking water and sanitation is a problem.

25.  Typhoid Fever  Patients with typhoid fever sometimes demonstrate a rash of flat, rose-colored spots and a sustained fever of 103 to 104.

typhoid

Typhoid is contracted through contact with the S. Typhi bacteria, which is carried by humans in both their blood stream and stool. Over 400 cases occur in the US, 20% of those who contract it die. Typhoid fever is a serious and potentially fatal disease caused by the bacterium Salmonella Typhi. This type of bacteria lives only in humans. People sick with typhoid fever carry the bacteria in their bloodstream and intestinal tract and transmit the bacteria through their stool.

A person can get typhoid fever by drinking or eating food contaminated with Salmonella Typhi or if contaminated sewage gets into the water used for drinking or washing dishes.

Typhoid fever symptoms include high fever, weakness, headache, stomach pains or loss of appetite. Typhoid fever is determined by testing the presence of Salmonella Typhi in the stool or blood of an infected person. Typhoid fever is treated with antibiotics.

26. SARS (Severe Acute Respiratory Syndrome) and the MERS VIRUS A new Pneumonia disease that emerged in China in 2003. After news of the outbreak of SARS China tried to silence news about it both internal and international news , SARS spread rapidly, reaching neighboring countries Hong Kong and Vietnam in late February 2003, and then to other countries via international travelers.Canada Had a outbreak that was fairly well covered and cost Canada quite a bit financially

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The last case of this epidemic occurred in June 2003. In that outbreak, 8069 cases arise that killed 775 people. There is speculation that this disease is Man-Made SARS, SARS has symptoms of flu and may include: fever, cough, sore throat and other non-specific symptoms.

SuperBug-Virus

The only symptom that is common to all patients was fever above 38 degrees Celsius. Shortness of breath may occur later. There is currently no vaccine for the disease so that countermeasures can only assist the breathing apparatus. The virus was said to be the Virus of the End Times

27.  MERS(Middle Eastern Respiratory Syndrome) The Middle East respiratory syndrome coronavirus (MERS-CoV), also termed EMC/2012 (HCoV-EMC/2012), is positive-sense, single-stranded RNA novel species of the genus Betacoronavirus.

MERS-CoV

First called novel coronavirus 2012 or simply novel coronavirus, it was first reported in 2012 after genome sequencing of a virus isolated from sputum samples from patients who fell ill in a 2012 outbreak of a new flu.

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As of June 2014, MERS-CoV cases have been reported in 22 countries, including Saudi Arabia, Malaysia, Jordan, Qatar, Egypt, the United Arab Emirates, Kuwait, Oman, Algeria, Bangladesh, the Philippines (still MERS-free), Indonesia (none was confirmed), the United Kingdom, and the United States. Almost all cases are somehow linked to Saudi Arabia. In the same article it was reported that Saudi authorities’ errors in response to MERS-CoV were a contributing factor to the spread of this deadly virus.

27. Enterovirus (Brain Inflammation) Entero virus is a disease of the hands, feet and mouth, and we can not ignored occasional Brain Inflammation. Enterovirus attack symptoms are very similar to regular flu symptoms so its difficult to detect it, such as fever, sometimes accompanied by dizziness and weakness and pain.

Next will come the little red watery bumps on the palms and feet following oral thrush. In severe conditions, Enterovirus can attack the nerves and brain tissue to result in death.

The virus is easily spread through direct contact with patients. Children are the main victims of the spread of enterovirus in China. Since the first victim was found but reporting was delayed until several weeks later.

24 thousand people have contracted the enterovirus. More than 30 of them died mostly children. The virus is reported to have entered Indonesia and infecting three people in Sumatra.  2014Enterovirus 68 is presently spreading across North America mainly and started in the USA has probably spread to Canada and Mexico by now. Enterovirus 68’s spread is unprecedented up till now

28.  The Black Plague  The 1918 flu virus and HIV are the biggest killers of modern times. But back in the 14th century, the bacterium that causes bubonic plague, or the Black Death as it was also known, was the baddest bug of all. In just a few years, from 1347 to 1351, the plague killed off about 75,000,000 people worldwide, including one-third of the entire population of Europe at that time.

Carrying away the victims of plague

It spread through Asia, Italy, North Africa, Spain, Normandy, Switzerland, and eastward into Hungary. After a brief break, it crossed into England, Scotland, and then to Norway, Sweden, Denmark, Iceland and Greenland.

the plague bacterium

Yersinia pestis, the plague bacteria
Courtesy of Neal Chamberlain

The plague bacterium is called Yersinia <yer-sin-ee-uh> pestis. There are two main forms of the disease. In the bubonic <boo-bah-nick> form, the bacteria cause painful swellings as large as an orange to form in the armpits, neck and groin. These swellings, or buboes, often burst open, oozing blood and pus. Blood vessels leak blood that puddles under the skin, giving the skin a blackened look. That’s why the disease became known as the Black Death. At least half of its victims die within a week.

The pneumonic <new-mon-ick> form of plague causes victims to sweat heavily and cough up blood that starts filling their lungs. Almost no one survived it during the plague years. Yersinia pestis is the deadliest microbe we’ve ever known, although HIV might catch up to it. Yersinia pestis is still around in the world. Fortunately, with bacteria-killing antibiotics and measures to control the pests—rats and mice—that spread the bacteria, we’ve managed to conquer this killer.

29. Human Papillomavirus  Human papillomavirus (HPV) is a DNA virus from the papillomavirus family that is capable of infecting humans. Like all papillomaviruses, HPVs establish productive infections only in keratinocytes of the skin or mucous membranes.

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Most HPV infections are subclinical and will cause no physical symptoms; however, in some people subclinical infections will become clinical and may cause benign papillomas (such as warts [verrucae] or squamous cell papilloma), or cancers of the cervix, vulva, vagina, penis, oropharynx and anus.HPV has been linked with an increased risk of cardiovascular disease. In addition, HPV 16 and 18 infections are a cause of a unique type of oropharyngeal (throat) cancer and are believed to cause 70% of cervical cancer, which have available vaccines, see HPV vaccine.

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More than 30 to 40 types of HPV are typically transmitted through sexual contact and infect the anogenital region. Some sexually transmitted HPV types may cause genital warts. Persistent infection with "high-risk" HPV types—different from the ones that cause skin warts—may progress to precancerous lesions and invasive cancer. High-risk HPV infection is a cause of nearly all cases of cervical cancer.However, most infections do not cause disease.

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Seventy percent of clinical HPV infections, in young men and women, may regress to subclinical in one year and ninety percent in two years. However, when the subclinical infection persists—in 5% to 10% of infected women—there is high risk of developing precancerous lesions of the vulva and cervix, which can progress to invasive cancer. Progression from subclinical to clinical infection may take years; providing opportunities for detection and treatment of pre-cancerous lesions.

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In more developed countries, cervical screening using a Papanicolaou (Pap) test or liquid-based cytology is used to detect abnormal cells that may develop into cancer. If abnormal cells are found, women are invited to have a colposcopy. During a colposcopic inspection, biopsies can be taken and abnormal areas can be removed with a simple procedure, typically with a cauterizing loop or, more commonly in the developing world—by freezing (cryotherapy).

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Treating abnormal cells in this way can prevent them from developing into cervical cancer. Pap smears have reduced the incidence and fatalities of cervical cancer in the developed world, but even so there were 11,000 cases and 3,900 deaths in the U.S. in 2008. Cervical cancer has substantial mortality worldwide, there are an estimated 490,000 cases and 270,000 deaths each year.

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It is true that infections caused by human papillomavirus (HPV) are not fatal, but chronic infection may result in cervical cancer. Apparently, HPV is responsible for almost all cervical cancers (approx. 99%). HPV results in 275,000 deaths per year.

30. Henipaviruses The genus Henipavirus comprises of 3 members which are Hendra virus (HeV), Nipah virus (NiV), and Cedar virus (CedPV). The second one was introduced in the middle of 2012, although affected no human, and is therefore considered harmless. The rest of the two viruses, however, are lethal with mortality rate up to 50-100%.

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Hendra virus (originally Equine morbillivirus) was discovered in September 1994 when it caused the deaths of thirteen horses, and a trainer at a training complex in Hendra, a suburb of Brisbane in Queensland, Australia.

The index case, a mare, was housed with 19 other horses after falling ill, and died two days later. Subsequently, all of the horses became ill, with 13 dying. The remaining 6 animals were subsequently euthanized as a way of preventing relapsing infection and possible further transmission.The trainer, Victory (‘Vic’) Rail, and a stable hand were involved in nursing the index case, and both fell ill with an influenza-like illness within one week of the first horse’s death. The stable hand recovered while Mr Rail died of respiratory and renal failure. The source of the virus was most likely frothy nasal discharge from the index case.

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A second outbreak occurred in August 1994 (chronologically preceding the first outbreak) in Mackay 1,000 km north of Brisbane resulting in the deaths of two horses and their owner. The owner, Mark Preston, assisted in necropsies of the horses and within three weeks was admitted to hospital suffering from meningitis. Mr Preston recovered, but 14 months later developed neurologic signs and died. This outbreak was diagnosed retrospectively by the presence of Hendra virus in the brain of the patient.pathogens-02-00264-g002-1024

A survey of wildlife in the outbreak areas was conducted, and identified pteropid fruit bats as the most likely source of Hendra virus, with a seroprevalence of 47%. All of the other 46 species sampled were negative. Virus isolations from the reproductive tract and urine of wild bats indicated that transmission to horses may have occurred via exposure to bat urine or birthing fluids.  However, the only attempt at experimental infection reported in the literature, conducted at CSIRO Geelong, did not result in infection of a horse from infected flying foxes. This study looked at potential infection between bats, horses and cats, in various combinations. The only species that was able to infect horses was the cat (Felix spp.)

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Nipah virus was identified in April 1999, when it caused an outbreak of neurological and respiratory disease on pig farms in peninsular Malaysia, resulting in 257 human cases, including 105 human deaths and the culling of one million pigs.  In Singapore, 11 cases, including one death, occurred in abattoir workers exposed to pigs imported from the affected Malaysian farms. The Nipah virus has been classified by the Centers for Disease Control and Prevention as a Category C agent. The name "Nipah" refers to the place, Kampung Baru Sungai Nipah in Negeri Sembilan State, Malaysia, the source of the human case from which Nipah virus was first isolated.

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The outbreak was originally mistaken for Japanese encephalitis (JE), however, physicians in the area noted that persons who had been vaccinated against JE were not protected, and the number of cases among adults was unusual Despite the fact that these observations were recorded in the first month of the outbreak, the Ministry of Health failed to react accordingly, and instead launched a nationwide campaign to educate people on the dangers of JE and its vector, Culex mosquitoes.

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Symptoms of infection from the Malaysian outbreak were primarily encephalitic in humans and respiratory in pigs. Later outbreaks have caused respiratory illness in humans, increasing the likelihood of human-to-human transmission and indicating the existence of more dangerous strains of the virus. Based on seroprevalence data and virus isolations, the primary reservoir for Nipah virus was identified as Pteropid fruit bats, including Pteropus vampyrus (Large Flying Fox), and Pteropus hypomelanus (Small flying fox), both of which occur in Malaysia.

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The transmission of Nipah virus from flying foxes to pigs is thought to be due to an increasing overlap between bat habitats and piggeries in peninsular Malaysia. At the index farm, fruit orchards were in close proximity to the piggery, allowing the spillage of urine, feces and partially eaten fruit onto the pigs. Retrospective studies demonstrate that viral spillover into pigs may have been occurring in Malaysia since 1996 without detection. During 1998, viral spread was aided by the transfer of infected pigs to other farms, where new outbreaks occurred.

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Cedar Virus (CedPV) was first identified in pteropid urine during work on Hendra virus undertaken in Queensland in 2009. Although the virus is reported to be very similar to both Hendra and Nipah, it does not cause illness in laboratory animals usually susceptible to paramyxoviruses. Animals were able to mount an effective response and create effective antibodies.3273481_pone.0027918.g003

The scientists who identified the virus report:

Hendra and Nipah viruses are 2 highly pathogenic paramyxoviruses that have emerged from bats within the last two decades. Both are capable of causing fatal disease in both humans and many mammal species. Serological and molecular evidence for henipa-like viruses have been reported from numerous locations including Asia and Africa, however, until now no successful isolation of these viruses have been reported. This paper reports the isolation of a novel paramyxovirus, named Cedar virus, from fruit bats in Australia. Full genome sequencing of this virus suggests a close relationship with the henipaviruses.
 
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Antibodies to Cedar virus were shown to cross react with, but not cross neutralize Hendra or Nipah virus. Despite this close relationship, when Cedar virus was tested in experimental challenge models in ferrets and guinea pigs, we identified virus replication and generation of neutralizing antibodies, but no clinical disease was observed. As such, this virus provides a useful reference for future reverse genetics experiments to determine the molecular basis of the pathogenicity of the henipaviruses.

30. Lyssaviruses  This genus comprises of not only rabies virus (causing death of almost everyone who is infected) but certain other viruses such as Duvenhage virus, Mokola virus, and Australian bat lyssavirus. Although small number of cases are reported, but the ones reported have always been fatal. Bats are vectors for all of these types except for Mokola virus.

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Lyssavirus (from Lyssa, the Greek goddess of madness, rage, and frenzy) is a genus of viruses belonging to the family Rhabdoviridae, in the order Mononegavirales. This group of RNA viruses includes the rabies virus traditionally associated with the disease. Viruses typically have either helical or cubic symmetry. Lyssaviruses have helical symmetry, so their infectious particles are approximately cylindrical in shape. This is typical of plant-infecting viruses. Human-infecting viruses more commonly have cubic symmetry and take shapes approximating regular polyhedra. The structure consists of a spiked outer envelope, a middle region consisting of matrix protein M, and an inner ribonucleocapsid complex region, consisting of the genome associated with other proteins.

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Lyssavirus genome consists of a negative-sense, single-stranded RNA molecule that encodes five viral proteins: polymerase L, matrix protein M, phosphoprotein P, nucleoprotein N, and glycoprotein G.

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Based on recent phylogenetic evidence, lyssa viruses are categorized into seven major species. In addition, five species recently have been discovered: West Caucasian bat virus, Aravan virus, Khuj and virus, Irkut virus and Shimoni bat virus. The major species include rabies virus (species 1), Lagos bat virus (species 2), Mokola virus (species 3), Duvenhage virus (species 4), European Bat lyssaviruses type 1 and 2 (species 5 and 6), and Australian bat lyssavirus (species 7).83980497

Based on biological properties of the viruses, these species are further subdivided into phylogroups 1 and 2. Phylogroup 1 includes genotypes 1, 4, 5, 6, and 7, while phylogroup 2 includes genotypes 2 and 3. The nucleocapsid region of lyssavirus is fairly highly conserved from genotype to genotype across both phylogroups; however, experimental data have shown the lyssavirus strains used in vaccinations are only from the first species(i.e. classic rabies).

31. Tuberculosis  Mucous, fever, fatigue, excessive sweating and weight loss. What do they all have in common?

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They are symptoms of pulmonary tuberculosis, or TB. TB is a contagious bacterial infection that involves the lungs, but it may spread to other organs. The symptoms of this disease can remain stagnant for years or affect the person right away. People at higher risk for contracting TB include the elderly, infants and those with weakened immune systems due to other diseases, such as AIDS or diabetes, or even individuals who have undergone chemotherapy.

Being around others who may have TB, maintaining a poor diet or living in unsanitary conditions are all risk factors for contracting TB. In the United States, there are approximately 10 cases of TB per 100,000 people. Tuberculosis, MTB, or TB (short for tubercle bacillus), in the past also called phthisis, phthisis pulmonalis, or consumption, is a widespread, and in many cases fatal, infectious disease caused by various strains of mycobacteria, usually Mycobacterium tuberculosis.

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Tuberculosis typically attacks the lungs, but can also affect other parts of the body. It is spread through the air when people who have an active TB infection cough, sneeze, or otherwise transmit respiratory fluids through the air. Most infections do not have symptoms, known as latent tuberculosis. About one in ten latent infections eventually progresses to active disease which, if left untreated, kills more than 50% of those so infected.

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The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss (the latter giving rise to the formerly common term for the disease, "consumption"). Infection of other organs causes a wide range of symptoms. Diagnosis of active TB relies on radiology (commonly chest X-rays), as well as microscopic examination and microbiological culture of body fluids.

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Diagnosis of latent TB relies on the tuberculin skin test (TST) and/or blood tests. Treatment is difficult and requires administration of multiple antibiotics over a long period of time. Social contacts are also screened and treated if necessary. Antibiotic resistance is a growing problem in multiple drug-resistant tuberculosis (MDR-TB) infections. Prevention relies on screening programs and vaccination with the bacillus Calmette-Guérin vaccine.

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One-third of the world’s population is thought to have been infected with M. tuberculosis, with new infections occurring in about 1% of the population each year.In 2007, an estimated 13.7 million chronic cases were active globally, while in 2010, an estimated 8.8 million new cases and 1.5 million associated deaths occurred, mostly in developing countries. The absolute number of tuberculosis cases has been decreasing since 2006, and new cases have decreased since 2002.

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The rate of tuberculosis in different areas varies across the globe; about 80% of the population in many Asian and African countries tests positive in tuberculin tests, while only 5–10% of the United States population tests positive. More people in the developing world contract tuberculosis because of a poor immune system, largely due to high rates of HIV infection and the corresponding development of AIDS.

32. Encephalitis Virus Encephalitis is an acute inflammation of the brain, commonly caused by a viral infection. Victims are usually exposed to viruses resulting in encephalitis by insect bites or food and drink. The most frequently encountered agents are arboviruses (carried by mosquitoes or ticks) and enteroviruses ( coxsackievirus, poliovirus and echovirus ). Some of the less frequent agents are measles, rabies, mumps, varicella and herpes simplex viruses.

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Patients with encephalitis suffer from fever, headache, vomiting, confusion, drowsiness and photophobia. The symptoms of encephalitis are caused by brain’s defense mechanisms being activated to get rid of infection (brain swelling, small bleedings and cell death). Neurologic examination usually reveals a stiff neck due to the irritation of the meninges covering the brain. Examination of the cerebrospinal fluidCerebrospinal fluid CSF in short, is the clear fluid that occupies the subarachnoid space (the space between the skull and cortex of the brain). It acts as a "cushion" or buffer for the cortex.

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Also, CSF occupies the ventricular system of the brain and the obtained by a lumbar puncture In medicine, a lumbar puncture (colloquially known as a spinal tap is a diagnostic procedure that is done to collect a sample of cerebrospinal fluid (CSF) for biochemical, microbiological and cytological analysis. Indications The most common indication for procedure reveals increased amounts of proteins and white blood cells with normal glucose. A CT scan examination is performed to reveal possible complications of brain swelling, brain abscess Brain abscess (or cerebral abscess) is an abscess caused by inflammation and collection of infected material coming from local (ear infection, infection of paranasal sinuses, infection of the mastoid air cells of the temporal bone, epidural abscess) or re or bleeding. Lumbar puncture procedure is performed only after the possibility of a prominent brain swelling is excluded by a CT scan examination.

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What are the main Symptoms?
Some patients may have symptoms of a cold or stomach infection before encephalitis symptoms begin.
When a case of encephalitis is not very severe, the symptoms may be similar to those of other illnesses, including:
• Fever that is not very high
• Mild headache
• Low energy and a poor appetite
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Other symptoms include:
• Clumsiness, unsteady gait
• Confusion, disorientation
• Drowsiness
• Irritability or poor temper control
• Light sensitivity
• Stiff neck and back (occasionally)
• Vomiting
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Symptoms in newborns and younger infants may not be as easy to recognize:
• Body stiffness
• Irritability and crying more often (these symptoms may get worse when the baby is picked up)
• Poor feeding
• Soft spot on the top of the head may bulge out more
• Vomiting
Encephalitis

• Loss of consciousness, poor responsiveness, stupor, coma
• Muscle weakness or paralysis
• Seizures
• Severe headache
• Sudden change in mental functions:
• "Flat" mood, lack of mood, or mood that is inappropriate for the situation
• Impaired judgment
• Inflexibility, extreme self-centeredness, inability to make a decision, or withdrawal from social interaction
• Less interest in daily activities
• Memory loss (amnesia), impaired short-term or long-term memory

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Children and adults should avoid contact with anyone who has encephalitis.
Controlling mosquitoes (a mosquito bite can transmit some viruses) may reduce the chance of some infections that can lead to encephalitis.
• Apply an insect repellant containing the chemical, DEET when you go outside (but never use DEET products on infants younger than 2 months).
• Remove any sources of standing water (such as old tires, cans, gutters, and wading pools).
• Wear long-sleeved shirts and pants when outside, particularly at dusk.
Vaccinate animals to prevent encephalitis caused by the rabies virus.

 

33. Chicken Pox Virus Chickenpox is a highly contagious disease caused by primary infection with varicella zoster virus (VZV).It usually starts with a vesicular skin rash mainly on the body and head rather than on the limbs. The rash develops into itchy, raw pockmarks, which mostly heal without scarring. On examination, the observer typically finds skin lesions at various stages of healing and also ulcers in the oral cavity and tonsil areas. The disease is most commonly observed in children.

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Chickenpox is an airborne disease which spreads easily through coughing or sneezing by ill individuals or through direct contact with secretions from the rash. A person with chickenpox is infectious one to two days before the rash appears. They remain contagious until all lesions have crusted over (this takes approximately six days). Immunocompromised patients are contagious during the entire period as new lesions keep appearing. Crusted lesions are not contagious.Chickenpox has been observed in other primates, including chimpanzees and gorillas.

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The origin of the term chicken pox, which is recorded as being used since 1684,is not reliably known. It has been said to be a derived from chickpeas, based on resemblance of the vesicles to chickpeas, or to come from the rash resembling chicken pecks. Other suggestions include the designation chicken for a child (i.e., literally ‘child pox’), a corruption of itching-pox, or the idea that the disease may have originated in chickens. Samuel Johnson explained the designation as "from its being of no very great danger."

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The early (prodromal) symptoms in adolescents and adults are nausea, loss of appetite, aching muscles, and headache. This is followed by the characteristic rash or oral sores, malaise, and a low-grade fever that signal the presence of the disease. Oral manifestations of the disease (enanthem) not uncommonly may precede the external rash (exanthem). In children the illness is not usually preceded by prodromal symptoms, and the first sign is the rash or the spots in the oral cavity. The rash begins as small red dots on the face, scalp, torso, upper arms and legs; progressing over 10–12 hours to small bumps, blisters and pustules; followed by umbilication and the formation of scabs.

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At the blister stage, intense itching is usually present. Blisters may also occur on the palms, soles, and genital area. Commonly, visible evidence of the disease develops in the oral cavity & tonsil areas in the form of small ulcers which can be painful or itchy or both; this enanthem (internal rash) can precede the exanthem (external rash) by 1 to 3 days or can be concurrent. These symptoms of chickenpox appear 10 to 21 days after exposure to a contagious person. Adults may have a more widespread rash and longer fever, and they are more likely to experience complications, such as varicella pneumonia.Because watery nasal discharge containing live virus usually precedes both exanthem (external rash) and enanthem (oral ulcers) by 1 to 2 days, the infected person actually becomes contagious one to two days prior to recognition of the disease. Contagiousness persists until all vesicular lesions have become dry crusts (scabs), which usually entails four or five days, by which time nasal shedding of live virus also ceases.

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Chickenpox is rarely fatal, although it is generally more severe in adult men than in women or children. Non-immune pregnant women and those with a suppressed immune system are at highest risk of serious complications. Arterial ischemic stroke (AIS) associated with chickenpox in the previous year accounts for nearly one third of childhood AIS. The most common late complication of chickenpox is shingles (herpes zoster), caused by reactivation of the varicella zoster virus decades after the initial, often childhood, chickenpox infection.

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Shingles  Herpes zoster After a chickenpox infection, the virus remains dormant in the body’s nerve tissues. The immune system keeps the virus at bay, but later in life, usually as an adult, it can be reactivated and cause a different form of the viral infection called shingles (scientifically known as herpes zoster). The United States Advisory Committee on Immunization Practices (ACIP) suggests that any adult over the age of 60 years gets the herpes zoster vaccine as a part of their normal medical check ups.

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Many adults who have had chickenpox as children are susceptible to shingles as adults, often with the accompanying condition postherpetic neuralgia, a painful condition that makes it difficult to sleep. Even after the shingles rash has gone away, there can be night pain in the area affected by the rash.Shingles affects one in five adults infected with chickenpox as children, especially those who are immune suppressed, particularly from cancer, HIV, or other conditions.

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However, stress can bring on shingles as well, although scientists are still researching the connection.Shingles are most commonly found in adults over the age of 60 who were diagnosed with chickenpox when they were under the age of 1.A shingles vaccine is available for adults over 50 who have had childhood chickenpox or who have previously had shingles.

34. POXVIRUS  Poxviruses (members of the family Poxviridae) are viruses that can, as a family, infect both vertebrate and invertebrate animals.

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Four genera of poxviruses may infect humans: orthopox, parapox, yatapox, molluscipox. Orthopox: smallpox virus (variola), vaccinia virus, cowpox virus, monkeypox virus; Parapox: orf virus, pseudocowpox, bovine papular stomatitis virus; Yatapox: tanapox virus, yaba monkey tumor virus; Molluscipox: molluscum contagiosum virus (MCV).The most common are vaccinia (seen on Indian subcontinent) and molluscum contagiousum, but monkeypox infections are rising (seen in west and central African rainforest countries). Camelpox is a disease of camels caused by a virus of the family Poxviridae, subfamily Chordopoxvirinae, and the genus Orthopoxvirus. It causes skin lesions and a generalized infection. Approximately 25% of young camels that become infected will die from the disease, while infection in older camels is generally more mild.

Poxvirus model in section (Pov_Ray)

The ancestor of the poxviruses is not known but structural studies suggest it may have been an adenovirus or a species related to both the poxviruses and the adenoviruses. Based on the genome organization and DNA replication mechanism it seems that phylogenetic relationships may exist between the rudiviruses (Rudiviridae) and the large eukaryal DNA viruses: the African swine fever virus (Asfarviridae), Chlorella viruses (Phycodnaviridae) and poxviruses (Poxviridae).The mutation rate in these genomes has been estimated to be 0.9-1.2 x 10−6 substitutions per site per year.A second estimate puts this rate at 0.5-7 × 10−6 nucleotide substitutions per site per year.  A third estimate places the rate at 4-6 × 10−6.

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The last common ancestor of the extant poxviruses that infect vertebrates existed 0.5 million years ago. The genus Avipoxvirus diverged from the ancestor 249 ± 69 thousand years ago. The ancestor of the genus Orthopoxvirus was next to diverge from the other clades at 0.3 million years ago. A second estimate of this divergence time places this event at 166,000 ± 43,000 years ago. The division of the Orthopox into the extant genera occurred ~14,000 years ago. The genus Leporipoxvirus diverged ~137,000 ± 35,000 years ago. This was followed by the ancestor of the genus Yatapoxvirus. The last common ancestor of the Capripoxvirus and Suipoxvirus diverged 111,000 ± 29,000 years ago.

Poxvirus Pov-Ray model 2

A model of a poxvirus cut-away in
cross-section to show the internal
structures. Poxviruses are shaped like
flattened capsules/barrels or are lens or
pill-shaped.

Poxvirus Pov-Ray model 3

Their structure is complex,
neither icosahedral nor helical. This
model is based on Vaccinia, the smallpox
virus. The structures are also highly
variable and often incompletely studied.

 

35. West Nile Virus  West Nile virus (WNV) is a mosquito-borne zoonotic arbovirus belonging to the genus Flavivirus in the family Flaviviridae.

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This flavivirus is found in temperate and tropical regions of the world. It was first identified in the West Nile subregion in the East African nation of Uganda in 1937. Prior to the mid-1990s, WNV disease occurred only sporadically and was considered a minor risk for humans, until an outbreak in Algeria in 1994, with cases of WNV-caused encephalitis, and the first large outbreak in Romania in 1996, with a high number of cases with neuroinvasive disease. WNV has now spread globally, with the first case in the Western Hemisphere being identified in New York City in 1999; over the next five years, the virus spread across the continental United States, north into Canada, and southward into the Caribbean islands and Latin America. WNV also spread to Europe, beyond the Mediterranean Basin, and a new strain of the virus was identified in Italy in 2012. WNV is now considered to be an endemic pathogen in Africa, Asia, Australia, the Middle East, Europe and in the United States, which in 2012 has experienced one of its worst epidemics. In 2012, WNV killed 286 people in the United States, with the state of Texas being hard hit by this virus, making the year the deadliest on record for the United States.

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The main mode of WNV transmission is via various species of mosquitoes, which are the prime vector, with birds being the most commonly infected animal and serving as the prime reservoir host—especially passerines, which are of the largest order of birds, Passeriformes. WNV has been found in various species of ticks, but current research suggests they are not important vectors of the virus. WNV also infects various mammal species, including humans, and has been identified in reptilian species, including alligators and crocodiles, and also in amphibians. Not all animal species that are susceptible to WNV infection, including humans, and not all bird species develop sufficient viral levels to transmit the disease to uninfected mosquitoes, and are thus not considered major factors in WNV transmission.

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Approximately 80% of West Nile virus infections in humans are subclinical, which cause no symptoms. In the cases where symptoms do occur—termed West Nile fever in cases without neurological disease—the time from infection to the appearance of symptoms (incubation period) is typically between 2 and 15 days. Symptoms may include fever, headaches, fatigue, muscle pain or aches, malaise, nausea, anorexia, vomiting, myalgias and rash. Less than 1% of the cases are severe and result in neurological disease when the central nervous system is affected. People of advanced age, the very young, or those with immunosuppression, either medically induced, such as those taking immunosupressive drugs, or due to a pre-existing medical condition such as HIV infection, are most susceptible. The specific neurological diseases that may occur are West Nile encephalitis, which causes inflammation of the brain, West Nile meningitis, which causes inflammation of the meninges, which are the protective membranes that cover the brain and spinal cord, West Nile meningoencephalitis, which causes inflammation of the brain and also the meninges surrounding it, and West Nile poliomyelitis—spinal cord inflammation, which results in a syndrome similar to polio, which may cause acute flaccid paralysis.

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Currently, no vaccine against WNV infection is available. The best method to reduce the rates of WNV infection is mosquito control on the part of municipalities, businesses and individual citizens to reduce breeding populations of mosquitoes in public, commercial and private areas via various means including eliminating standing pools of water where mosquitoes breed, such as in old tires, buckets, unused swimming pools, etc. On an individual basis, the use of personal protective measures to avoid being bitten by an infected mosquito, via the use of mosquito repellent, window screens, avoiding areas where mosquitoes are more prone to congregate, such as near marshes, areas with heavy vegetation etc., and being more vigilant from dusk to dawn when mosquitoes are most active offers the best defense. In the event of being bitten by an infected mosquito, familiarity of the symptoms of WNV on the part of laypersons, physicians and allied health professions affords the best chance of receiving timely medical treatment, which may aid in reducing associated possible complications and also appropriate palliative care.

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The incubation period for WNV—the amount of time from infection to symptom onset—is typically from between 2 and 15 days. Headache can be a prominent symptom of WNV fever, meningitis, encephalitis, meningoencephalitis, and it may or may not be present in poliomyelytis-like syndrome. Thus, headache is not a useful indicator of neuroinvasive disease.(CDC)

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  • West Nile virus encephalitis (WNE) is the most common neuroinvasive manifestation of WNND. WNE presents with similar symptoms to other viral encephalitis with fever, headaches, and altered mental status. A prominent finding in WNE is muscular weakness (30 to 50 percent of patients with encephalitis), often with lower motor neuron symptoms, flaccid paralysis, and hyporeflexia with no sensory abnormalities.
  • West Nile meningitis (WNM) usually involves fever, headache, and stiff neck. Pleocytosis, an increase of white blood cells in cerebrospinal fluid, is also present. Changes in consciousness are not usually seen and are mild when present.
  • West Nile meningoencephalitis is inflammation of both the brain (encephalitis) and meninges (meningitis).
  • West Nile poliomyelitis (WNP), an acute flaccid paralysis syndrome associated with WNV infection, is less common than WNM or WNE. This syndrome is generally characterized by the acute onset of asymmetric limb weakness or paralysis in the absence of sensory loss. Pain sometimes precedes the paralysis. The paralysis can occur in the absence of fever, headache, or other common symptoms associated with WNV infection. Involvement of respiratory muscles, leading to acute respiratory failure, can sometimes occur.
  • West-Nile reversible paralysis,. Like WNP, the weakness or paralysis is asymmetric. Reported cases have been noted to have an initial preservation of deep tendon reflexes, which is not expected for a pure anterior horn involvement.Disconnect of upper motor neuron influences on the anterior horn cells possibly by myelitis or glutamate excitotoxicity have been suggested as mechanisms.The prognosis for recovery is excellent.
  • Cutaneous manifestations specifically rashes, are not uncommon in WNV-infected patients; however, there is a paucity of detailed descriptions in case reports and there are few clinical images widely available. Punctate erythematous (?), macular, and papular eruptions, most pronounced on the extremities have been observed in WNV cases and in some cases histopathologic findings have shown a sparse superficial perivascular lymphocytic infiltrate, a manifestation commonly seen in viral exanthems (?). A literature review provides support that this punctate rash is a common cutaneous presentation of WNV infection. (Anderson RC et al.)

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West Nile virus life cycle. After binding and uptake, the virion envelope fuses with cellular membranes, followed by uncoating of the nucleocapsid and release of the RNA genome into the cytoplasm. The viral genome serves as messenger RNA (mRNA) for translation of all viral proteins and as template during RNA replication. Copies are subsequently packaged within new virus particles that are transported in vesicles to the cell membrane.

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WNV is one of the Japanese encephalitis antigenic serocomplex of viruses. Image reconstructions and cryoelectron microscopy reveal a 45–50 nm virion covered with a relatively smooth protein surface. This structure is similar to the dengue fever virus; both belong to the genus Flavivirus within the family Flaviviridae.

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The genetic material of WNV is a positive-sense, single strand of RNA, which is between 11,000 and 12,000 nucleotides long; these genes encode seven nonstructural proteins and three structural proteins. The RNA strand is held within a nucleocapsid formed from 12-kDa protein blocks; the capsid is contained within a host-derived membrane altered by two viral glycoproteins. Phylogenetic tree of West Nile viruses based on sequencing of the envelope gene during complete genome sequencing of the virus

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Studies of phylogenetic lineages determined WNV emerged as a distinct virus around 1000 years ago. This initial virus developed into two distinct lineages, lineage 1 and its multiple profiles is the source of the epidemic transmission in Africa and throughout the world. Lineage 2 was considered an Africa zoonosis. However, in 2008, lineage 2, previously only seen in horses in sub-Saharan Africa and Madagascar, began to appear in horses in Europe, where the first known outbreak affected 18 animals in Hungary in 2008. Lineage 1 West Nile virus was detected in South Africa in 2010 in a mare and her aborted fetus; previously, only lineage 2 West Nile virus had been detected in horses and humans in South Africa. A 2007 fatal case in a killer whale in Texas broadened the known host range of West Nile virus to include cetaceans.

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The United States virus was very closely related to a lineage 1 strain found in Israel in 1998. Since the first North American cases in 1999, the virus has been reported throughout the United States, Canada, Mexico, the Caribbean, and Central America. There have been human cases and equine cases, and many birds are infected. The Barbary macaque, Macaca sylvanus, was the first nonhuman primate to contract WNV.  Both the United States and Israeli strains are marked by high mortality rates in infected avian populations; the presence of dead birds—especially Corvidae—can be an early indicator of the arrival of the virus.

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The West Nile virus maintains itself in nature by cycling between mosquitoes and certain species of birds. A mosquito (the vector) bites an uninfected bird (the host), the virus amplifies within the bird, an uninfected mosquito bites the bird and is in turn infected. Other species such as humans and horses are incidental infections, as they are not the mosquitoes’ preferred blood meal source. The virus does not amplify within these species and they are known as dead-end hosts.

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The West Nile virus (WNV) is transmitted through female mosquitoes, which are the prime vectors of the virus. Only females feed on blood, and different species have evolved to take a blood meal on preferred types of vertebrate hosts. The infected mosquito species vary according to geographical area; in the United States, Culex pipiens (Eastern United States), Culex tarsalis (Midwest and West), and Culex quinquefasciatus (Southeast) are the main sources.The various species that transmit the WNV prefer birds of the Passeriformes order, the largest order of birds. Within that order there is further selectivity with various mosquito species exhibiting preference for different species. In the United States WNV mosquito vectors have shown definitive preference for members of the Corvidae and Thrush family of birds. Amongst the preferred species within these families are the American crow, a corvid, and the American robin (Turdus migratorius), a thrush.

The proboscis of a female mosquito—here a Southern House Mosquito (Culex quinquefasciatus)—pierces the epidermis and dermis to allow it to feed on human blood from a capillary: this one is almost fully tumescent. The mosquito injects saliva, which contains an anesthetic, and an anticoagulant into the puncture wound; and in infected mosquitoes, the West Nile virus.

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The birds develop sufficient viral levels after being infected, to transmit the infection to other biting mosquitoes that in turn go on to infect other birds. In crows and robins, the infection is fatal in 4–5 days. This epizootic viral amplification cycle has been shown to peak 15–16 days before humans become ill. This may be due to the high mortality, and thus depletion of the preferred hosts, i.e., the specific bird species. The mosquitoes become less selective and begin feeding more readily on other animal types such as humans and horses which are considered incidental hosts.

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In mammals, the virus does not multiply as readily (i.e., does not develop high viremia during infection), and mosquitoes biting infected mammals are not believed to ingest sufficient virus to become infected,making mammals so-called dead-end hosts.

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Direct human-to-human transmission initially was believed to be caused only by occupational exposure, or conjunctive exposure to infected blood. The US outbreak identified additional transmission methods through blood transfusion,organ transplant intrauterine exposure, and breast feeding. Since 2003, blood banks in the United States routinely screen for the virus among their donors. As a precautionary measure, the UK’s National Blood Service initially ran a test for this disease in donors who donate within 28 days of a visit to the United States, Canada or the northeastern provinces of Italy and the Scottish National Blood Transfusion Service asks prospective donors to wait 28 days after returning from North America or the northeastern provinces of Italy before donating.

West Nile Virus Replication

Recently, the potential for mosquito saliva to impact the course of WNV disease was demonstrated. Mosquitoes inoculate their saliva into the skin while obtaining blood. Mosquito saliva is a pharmacological cocktail of secreted molecules, principally proteins, that can affect vascular constriction, blood coagulation, platelet aggregation, inflammation, and immunity. It clearly alters the immune response in a manner that may be advantageous to a virus. Studies have shown it can specifically modulate the immune response during early virus infection, and mosquito feeding can exacerbate WNV infection, leading to higher viremia and more severe forms of disease.

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Vertical transmission, the transmission of a viral or bacterial disease from the female of the species to her offspring, has been observed in various West Nile virus studies, amongst different species of mosquitoes in both the laboratory and in nature.Mosquito progeny infected vertically in autumn, may potentially serve as a mechanism for WNV to overwinter and initiate enzootic horizontal transmission the following spring.


35 of the Most Dangerous Viruses and Bacteria’s in the World Today

The Black Plague, Marburg, Ebola, Influenza, Enterovirus virus may all sound terrifying, but it’s not the most dangerous virus in the world. It isn’t HIV either. Here is a list of the most dangerous viruses and Bacteria’s on the Planet Earth.

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1. Marburg Virus The most dangerous virus is the Marburg virus. It is named after a small and idyllic town on the river Lahn – but that has nothing to do with the disease itself. The Marburg virus is a hemorrhagic fever virus. As with Ebola, the Marburg virus causes convulsions and bleeding of mucous membranes, skin and organs. It has a fatality rate of 90 percent.  The Marburg virus causes a rare, but severe hemorrhagic fever that has a fatality rate of 88%. It was first identified in 1967 when outbreaks of hemorrhagic fever cropped up simultaneously in Marburg, where the disease got its name, Frankfurt in Germany and Belgrade, Serbia.

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Marburg and Ebola came from the Filoviridae family of viruses. They both have the capacity to cause dramatic outbreaks with the greatest fatality rates. It is transmitted to humans from fruit bats and spreads to humans through direct contact with the blood, secretions and other bodily fluids of infected humans. No anti-viral treatment or vaccine exists against the Marburg virus. In 1967, a group of lab workers in Germany (Marburg and Frankfurt) and Serbia (then Yugoslavia) contracted a new type of hemorrhagic fever from some virus-carrying African green monkeys that had been imported for research and development of polio vaccines. The Marburg virus is also BSL-4, and Marburg hemorrhagic fever has a 23 to 90 percent fatality rate. Spread through close human-to-human contact, symptoms start with a headache, fever, and a rash on the trunk, and progress to multiple organ failure and massive internal bleeding.

There is no cure, and the latest cases were reported out of Uganda at the end of 2012. An American tourist who had explored a Ugandan cave full of fruit bats known to be reservoirs of the virus contracted it and survived in 2008. (But not before bringing his sick self back to the U.S.)

2. Ebola Virus  There are five strains of the Ebola virus, each named after countries and regions in Africa: Zaire, Sudan, Tai Forest, Bundibugyo and Reston. The Zaire Ebola virus is the deadliest, with a mortality rate of 90 percent. It is the strain currently spreading through Guinea, Sierra Leone and Liberia, and beyond. Scientists say flying foxes probably brought the Zaire Ebola virus into cities.

Typically less than 100 lives a year. UPDATE: A severe Ebola outbreak was detected in West Africa in March 2014. The number of deaths in this latest outbreak has outnumbered all other known cases from previous outbreaks combined. The World Health Organization is reporting nearly 2,000 deaths in this latest outbreak.
Once a person is infected with the virus, the disease has an incubation period of 2-21 days; however, some infected persons are asymptomatic. Initial symptoms are sudden malaise, headache, and muscle pain, progressing to high fever, vomiting, severe hemorrhaging (internally and out of the eyes and mouth) and in 50%-90% of patients, death, usually within days. The likelihood of death is governed by the virulence of the particular Ebola strain involved. Ebola virus is transmitted in body fluids and secretions; there is no evidence of transmission by casual contact. There is no vaccine and no cure.

Its melodic moniker may roll off the tongue, but if you contract the virus (above), that’s not the only thing that will roll off one of your body parts (a disturbing amount of blood coming out of your eyes, for instance). Four of the five known Ebola viral strains cause Ebola hemorrhagic fever (EHF), which has killed thousands of people in sub-Saharan African nations since its discovery in 1976.

The deadly virus is named after the Ebola River in the Democratic Republic of the Congo where it was first reported, and is classified as a CDC Biosafety Level 4, a.k.a. BSL-4, making it one of the most dangerous pathogens on the planet. It is thought to spread through close contact with bodily secretions. EHF has a 50 to 90 percent mortality rate, with a rapid onset of symptoms that start with a headache and sore throat and progress to major internal and external bleeding and multiple organ failure. There’s no known cure, and the most recent cases were reported at the end of 2012 in Uganda.

3. The Hantavirus describes several types of viruses. It is named after a river where American soldiers were first thought to have been infected with the Hantavirus, during the Korean War in 1950. Symptoms include lung disease, fever and kidney failure.

70,000 Deaths a Year
Hantavirus pulmonary syndrome (HPS) is a deadly disease transmitted by infected rodents through urine, droppings, or saliva. Humans can contract the disease when they breathe in aerosolized virus. HPS was first recognized in 1993 and has since been identified throughout the United States. Although rare, HPS is potentially deadly. Rodent control in and around the home remains the primary strategy for preventing hantavirus infection. Also known as House Mouse Flu. The symptoms, which are very similar to HFRS, include tachycardia and tachypnea. Such conditions can lead to a cardiopulmonary phase, where cardiovascular shock can occur, and hospitalization of the patient is required.

There are many strains of hantavirus floating around (yep, it’s airborne) in the wake of rodents that carry the virus. Different strains, carried by different rodent species, are known to cause different types of illnesses in humans, most notably hemorrhagic fever with renal syndrome (HFRS)—first discovered during the Korean War—and hantavirus pulmonary syndrome (HPS), which reared its ugly head with a 1993 outbreak in the Southwestern United States. Severe HFRS causes acute kidney failure, while HPS gets you by filling your lungs with fluid (edema). HFRS has a mortality rate of 1 to 15 percent, while HPS is 38 percent. The U.S. saw its most recent outbreak of hantavirus—of the HPS variety—at Yosemite National Park in late 2012.

4. Avian Influenza Bird Flu The various strains of bird flu regularly cause panic – which is perhaps justified because the mortality rate is 70 percent. But in fact the risk of contracting the H5N1 strain – one of the best known – is quite low. You can only be infected through direct contact with poultry. It is said this explains why most cases appear in Asia, where people often live close to chickens.

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This form of the flu is common among birds (usually poultry) and infects humans through contact with secretions of an infected bird.

Although rare, those infected have a high incidence of death. Symptoms are like those of the more common human form of influenza.

Bird flu (H5N1) has receded from international headlines for the moment, as few human cases of the deadly virus have been reported this year. But when Dutch researchers recently created an even more transmissible strain of the virus in a laboratory for research purposes, they stirred grave concerns about what would happen if it escaped into the outside world. “Part of what makes H5N1 so deadly is that most people lack an immunity to it,” explains Marc Lipsitch, a professor of epidemiology at Harvard School of Public Health (HSPH) who studies the spread of infectious diseases. “If you make a strain that’s highly transmissible between humans, as the Dutch team did, it could be disastrous if it ever escaped the lab.”

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H5N1 first made global news in early 1997 after claiming two dozen victims in Hong Kong. The virus normally occurs only in wild birds and farm-raised fowl, but in those isolated early cases, it made the leap from birds to humans. It then swept unimpeded through the bodies of its initial human victims, causing massive hemorrhages in the lungs and death in a matter of days. Fortunately, during the past 15 years, the virus has claimed only 400 victims worldwide—although the strain can jump species, it hasn’t had the ability to move easily from human to human, a critical limit to its spread.

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That’s no longer the case, however. In late 2011, the Dutch researchers announced the creation of an H5N1 virus transmissible through the air between ferrets (the best animal model for studying the impact of disease on humans). The news caused a storm of controversy in the popular press and heated debate among scientists over the ethics of the work. For Lipsitch and many others, the creation of the new strain was cause for alarm. “H5N1 influenza is already one of the most deadly viruses in existence,” he says. “If you make [the virus] transmissible [between humans], you have to be very concerned about what the resulting strain could do.”

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To put this danger in context, the 1918 “Spanish” flu—one of the most deadly influenza epidemics on record—killed between 50 million and 100 million people worldwide, or roughly 3 to 6 percent of those infected. The more lethal SARS virus (see “The SARS Scare,” March-April 2007, page 47) killed almost 10 percent of infected patients during a 2003 outbreak that reached 25 countries worldwide. H5N1 is much more dangerous, killing almost 60 percent of those who contract the illness.

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If a transmissible strain of H5N1 escapes the lab, says Lipsitch, it could spark a global health catastrophe. “It could infect millions of people in the United States, and very likely more than a billion people globally, like most successful flu strains do,” he says. “This might be one of the worst viruses—perhaps the worst virus—in existence right now because it has both transmissibility and high virulence.”

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Ironically, this is why Ron Fouchier, the Dutch virologist whose lab created the new H5N1 strain, argues that studying it in more depth is crucial. If the virus can be made transmissible in the lab, he reasons, it can also occur in nature—and researchers should have an opportunity to understand as much as possible about the strain before that happens.

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Lipsitch, who directs the Center for Communicable Disease Dynamics at HSPH, thinks the risks far outweigh the rewards. Even in labs with the most stringent safety requirements, such as enclosed rubber “space suits” to isolate researchers, accidents do happen. A single unprotected breath could infect a researcher, who might unknowingly spread the virus beyond the confines of the lab.

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In an effort to avoid this scenario, Lipsitch has been pushing for changes in research policy in the United States and abroad. (A yearlong, voluntary global ban on H5N1 research was lifted in many countries in January, and new rules governing such research in the United States were expected in February.) Lipsitch says that none of the current research proposals he has seen “would significantly improve our preparational response to a national pandemic of H5N1. The small risk of a very large public health disaster…is not worth taking [for] scientific knowledge without an immediate public health application.” His recent op-eds in scientific journals and the popular press have stressed the importance of regulating the transmissible strain and limiting work with the virus to only a handful of qualified labs. In addition, he argues, only technicians who have the right training and experience—and have been inoculated against the virus—should be allowed to handle it.

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These are simple limitations that could drastically reduce the danger of the virus spreading, he asserts, yet they’re still not popular with some researchers. He acknowledges that limiting research is an unusual practice scientifically but argues, “These are unusual circumstances.”

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Lipsitch thinks a great deal of useful research can still be done on the non-transmissible strain of the virus, which would provide valuable data without the risk of accidental release. In the meantime, he hopes to make more stringent H5N1 policies a priority for U.S. and foreign laboratories. Although it’s not a perfect solution, he says, it’s far better than a nightmare scenario.

5. Lassa Virus  A nurse in Nigeria was the first person to be infected with the Lassa virus. The virus is transmitted by rodents. Cases can be endemic – which means the virus occurs in a specific region, such as in western Africa, and can reoccur there at any time. Scientists assume that 15 percent of rodents in western Africa carry the virus.

Marburg virus

The Marburg virus under a microscope

This BSL-4 virus gives us yet another reason to avoid rodents. Lassa is carried by a species of rat in West Africa called Mastomys. It’s airborne…at least when you’re hanging around the rat’s fecal matter. Humans, however, can only spread it through direct contact with bodily secretions. Lassa fever, which has a 15 to 20 percent mortality rate, causes about 5000 deaths a year in West Africa, particularly in Sierra Leone and Liberia.

It starts with a fever and some retrosternal pain (behind the chest) and can progress to facial swelling, encephalitis, mucosal bleeding and deafness. Fortunately, researchers and medical professionals have found some success in treating Lassa fever with an antiviral drug in the early stages of the disease.

6. The Junin Virus is associated with Argentine hemorrhagic fever. People infected with the virus suffer from tissue inflammation, sepsis and skin bleeding. The problem is that the symptoms can appear to be so common that the disease is rarely detected or identified in the first instance.

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A member of the genus Arenavirus, Junin virus characteristically causes Argentine hemorrhagic fever (AHF). AHF leads to major alterations within the vascular, neurological and immune systems and has a mortality rate of between 20 and 30%.  Symptoms of the disease are conjunctivitis, purpura, petechia and occasional sepsis. The symptoms of the disease are relatively indistinct and may therefore be mistaken for a different condition.

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Since the discovery of the Junin virus in 1958, the geographical distribution of the pathogen, although still confined to Argentina, has risen. At the time of discovery, Junin virus was confined to an area of around 15,000 km². At the beginning of 2000, the distribution had risen to around 150,000 km². The natural hosts of Junin virus are rodents, particularly Mus musculus, Calomys spp. and Akodon azarae.

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Direct rodent to human transmission only transpires when contact is made with excrement of an infected rodent. This commonly occurs via ingestion of contaminated food or water, inhalation of particles within urine or via direct contact of broken skin with rodent excrement.

7. The Crimea-Congo Fever Virus is transmitted by ticks. It is similar to the Ebola and Marburg viruses in the way it progresses. During the first days of infection, sufferers present with pin-sized bleedings in the face, mouth and the pharynx.

Transmitted through tick bites this disease is endemic (consistently present)  in most countries of West Africa and the Middle East. Although rare, CCHF has a 30% mortality rate. The most recent outbreak of the disease was in 2005 in Turkey. The Crimean-Congo hemorrhagic fever is a common disease transmitted by a tick-Bourne virus. The virus causes major hemorrhagic fever outbreaks with a fatality rate of up to 30%. It is chiefly transmitted to people through tick and livestock. Person-to-person transmission occurs through direct contact with the blood, secretions and other bodily fluids of an infected person. No vaccination exists for both humans and animals against CCHF.

8. The Machupo Virus is associated with Bolivian hemorrhagic fever, also known as black typhus. The infection causes high fever, accompanied by heavy bleedings. It progresses similar to the Junin virus. The virus can be transmitted from human to human, and rodents often the carry it.

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Bolivian hemorrhagic fever (BHF), also known as black typhus or Ordog Fever, is a hemorrhagic fever and zoonotic infectious disease originating in Bolivia after infection by Machupo virus.BHF was first identified in 1963 as an ambisense RNA virus of the Arenaviridae family,by a research group led by Karl Johnson. The mortality rate is estimated at 5 to 30 percent.

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Due to its pathogenicity, Machupo virus requires Biosafety Level Four conditions, the highest level.In February and March 2007, some 20 suspected BHF cases (3 fatal) were reported to the El Servicio Departmental de Salud (SEDES) in Beni Department, Bolivia, and in February 2008, at least 200 suspected new cases (12 fatal) were reported to SEDES.In November 2011, a SEDES expert involved in a serosurvey to determine the extent of Machupo virus infections in the Department after the discovery of a second confirmed case near the departmental capital of Trinidad in November, 2011, expressed concern about expansion of the virus’ distribution outside the endemic zone in Mamoré and Iténez provinces.

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Bolivian hemorrhagic fever was one of three hemorrhagic fevers and one of more than a dozen agents that the United States researched as potential biological weapons before the nation suspended its biological weapons program. It was also under research by the Soviet Union, under the Biopreparat bureau.

9. Kyasanur Forest Virus  Scientists discovered the Kyasanur Forest Virus (KFD) virus in woodlands on the southwestern coast of India in 1955. It is transmitted by ticks, but scientists say it is difficult to determine any carriers. It is assumed that rats, birds and boars could be hosts. People infected with the virus suffer from high fever, strong headaches and muscle pain which can cause bleedings.

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The disease has a morbidity rate of 2-10%, and affects 100-500 people annually.The symptoms of the disease include a high fever with frontal headaches, followed by hemorrhagic symptoms, such as bleeding from the nasal cavity, throat, and gums, as well as gastrointestinal bleeding.An affected person may recover in two weeks time, but the convalescent period is typically very long, lasting for several months. There will be muscle aches and weakness during this period and the affected person is unable to engage in physical activities.

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There are a variety of animals thought to be reservoir hosts for the disease, including porcupines, rats, squirrels, mice and shrews. The vector for disease transmission is Haemaphysalis spinigera, a forest tick. Humans contract infection from the bite of nymphs of the tick.

Kyasanur Forest Disease Host

The disease was first reported from Kyasanur Forest of Karnataka in India in March 1957. The disease first manifested as an epizootic outbreak among monkeys killing several of them in the year 1957. Hence the disease is also locally known as Monkey Disease or Monkey Fever. The similarity with Russian Spring-summer encephalitis was noted and the possibility of migratory birds carrying the disease was raised. Studies began to look for the possible species that acted as reservoirs for the virus and the agents responsible for transmission. Subsequent studies failed to find any involvement of migratory birds although the possibility of their role in initial establishment was not ruled out. The virus was found to be quite distinctive and not closely related to the Russian virus strains.

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Antigenic relatedness is however close to many other strains including the Omsk hemorrhagic fever (OHF) and birds from Siberia have been found to show an antigenic response to KFD virus. Sequence based studies however note the distinctiveness of OHF.Early studies in India were conducted in collaboration with the US Army Medical Research Unit and this led to controversy and conspiracy theories.

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Subsequent studies based on sequencing found that the Alkhurma virus, found in Saudi Arabia is closely related. In 1989 a patient in Nanjianin, China was found with fever symptoms and in 2009 its viral gene sequence was found to exactly match with that of the KFD reference virus of 1957. This has however been questioned since the Indian virus shows variations in sequence over time and the exact match with the virus sequence of 1957 and the Chinese virus of 1989 is not expected.

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This study also found using immune response tests that birds and humans in the region appeared to have been exposed to the virus.Another study has suggested that the virus is recent in origin dating the nearest common ancestor of it and related viruses to around 1942, based on the estimated rate of sequence substitutions. The study also raises the possibility of bird involvement in long-distance transfer. It appears that these viruses diverged 700 years ago.

10. Dengue Fever is a constant threat. If you’re planning a holiday in the tropics, get informed about dengue. Transmitted by mosquitoes, dengue affects between 50 and 100 million people a year in popular holiday destinations such as Thailand and India. But it’s more of a problem for the 2 billion people who live in areas that are threatened by dengue fever.

25,000 Deaths a year Also known as ‘breakbone fever’ due to the extreme pain felt during fever, is an relatively new disease caused by one of four closely-related viruses. WHO estimates that a whopping 2.5 billion people (two fifths of the World’s population) are at risk from dengue. It puts the total number of infections at around 50 million per year, and is now epidemic in more than 100 countries.


Dengue viruses are transferred to humans through the bites of infective female Aedes mosquitoes. The dengue virus circulates in the blood of a human for two to seven days, during the same time they have the fever. It usually appears first on the lower limbs and the chest; in some patients, it spreads to cover most of the body. There may also be severe retro-orbital pain, (a pain from behind the eyes that is distinctive to Dengue infections), and gastritis with some combination of associated abdominal pain, nausea, vomiting coffee-grounds-like congealed blood, or severe diarrhea.

The leading cause of death in the tropics and subtropics is the infection brought on by the dengue virus, which causes a high fever, severe headache, and, in the worst cases, hemorrhaging. The good news is that it’s treatable and not contagious. The bad news is there’s no vaccine, and you can get it easily from the bite of an infected mosquito—which puts at least a third of the world’s human population at risk. The CDC estimates that there are over 100 million cases of dengue fever each year. It’s a great marketing tool for bug spray.

11. HIV 3.1 Million Lives a Year Human Immunodeficiency Virus has claimed the lives of more than 25 million people since 1981. HIV gets to the immune system by infecting important cells, including helper cells called CD4+ T cells, plus macrophanges and dendritic cells. Once the virus has taken hold, it systematically kills these cells, damaging the infected person’s immunity and leaving them more at risk from infections.

The majority of people infected with HIV go on to develop AIDS. Once a patient has AIDS common infections and tumours normally controlled by the CD4+ T cells start to affect the person.  
In the latter stages of the disease, pneumonia and various types of herpes can infect the patient and cause death.

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Human immunodeficiency virus infection / acquired immunodeficiency syndrome (HIV/AIDS) is a disease of the human immune system caused by infection with human immunodeficiency virus (HIV). The term HIV/AIDS represents the entire range of disease caused by the human immunodeficiency virus from early infection to late stage symptoms. During the initial infection, a person may experience a brief period of influenza-like illness. This is typically followed by a prolonged period without symptoms. As the illness progresses, it interferes more and more with the immune system, making the person much more likely to get infections, including opportunistic infections and tumors that do not usually affect people who have working immune systems.

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HIV is transmitted primarily via unprotected sexual intercourse (including anal and oral sex), contaminated blood transfusions, hypodermic needles, and from mother to child during pregnancy, delivery, or breastfeeding. Some bodily fluids, such as saliva and tears, do not transmit HIV. Prevention of HIV infection, primarily through safe sex and needle-exchange programs, is a key strategy to control the spread of the disease. There is no cure or vaccine; however, antiretroviral treatment can slow the course of the disease and may lead to a near-normal life expectancy. While antiretroviral treatment reduces the risk of death and complications from the disease, these medications are expensive and have side effects. Without treatment, the average survival time after infection with HIV is estimated to be 9 to 11 years, depending on the HIV subtype.

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Genetic research indicates that HIV originated in west-central Africa during the late nineteenth or early twentieth century. AIDS was first recognized by the United States Centers for Disease Control and Prevention (CDC) in 1981 and its cause—HIV infection—was identified in the early part of the decade. Since its discovery, AIDS has caused an estimated 36 million deaths worldwide (as of 2012). As of 2012, approximately 35.3 million people are living with HIV globally. HIV/AIDS is considered a pandemic—a disease outbreak which is present over a large area and is actively spreading.

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HIV/AIDS has had a great impact on society, both as an illness and as a source of discrimination. The disease also has significant economic impacts. There are many misconceptions about HIV/AIDS such as the belief that it can be transmitted by casual non-sexual contact. The disease has also become subject to many controversies involving religion. It has attracted international medical and political attention as well as large-scale funding since it was identified in the 1980s

 

12. Rotavirus 61,000 Lives a Year  According to the WHO, this merciless virus causes the deaths of more than half a million children every year. In fact, by the age of five, virtually every child on the planet has been infected with the virus at least once. Immunity builds up with each infection, so subsequent infections are milder. However, in areas where adequate healthcare is limited the disease is often fatal. Rotavirus infection usually occurs through ingestion of contaminated stool.

Because the virus is able to live a long time outside of the host, transmission can occur through ingestion of contaminated food or water, or by coming into direct contact with contaminated surfaces, then putting hands in the mouth.
Once it’s made its way in, the rotavirus infects the cells that line the small intestine and multiplies. It emits an enterotoxin, which gives rise to gastroenteritis.

13. Smallpox   Officially eradicated – Due to it’s long history, it impossible to estimate the carnage over the millennia Smallpox localizes in small blood vessels of the skin and in the mouth and throat. In the skin, this results in a characteristic maculopapular rash, and later, raised fluid-filled blisters. It has an overall mortality rate of 30–35%. Smallpox is believed to have emerged in human populations about 10,000 BC. The disease killed an estimated 400,000 Europeans per year during the closing years of the 18th century (including five reigning monarchs), and was responsible for a third of all blindness. Of all those infected, 20–60%—and over 80% of infected children—died from the disease.
Smallpox was responsible for an estimated 300–500 million deaths during the 20th century alone. In the early 1950s an estimated 50 million cases of smallpox occurred in the world each year.

As recently as 1967, the World Health Organization (WHO) estimated that 15 million people contracted the disease and that two million died in that year. After successful vaccination campaigns throughout the 19th and 20th centuries, the WHO certified the eradication of smallpox in December 1979.
Smallpox is one of only two infectious diseases to have been eradicated by humans, the other being Rinderpest, which was unofficially declared eradicated in October 2010.

The virus that causes smallpox wiped out hundreds of millions of people worldwide over thousands of years. We can’t even blame it on animals either, as the virus is only carried by and contagious for humans. There are several different types of smallpox disease that result from an infection ranging from mild to fatal, but it is generally marked by a fever, rash, and blistering, oozing pustules that develop on the skin. Fortunately, smallpox was declared eradicated in 1979, as the result of successful worldwide implementation of the vaccine.

14. Hepatitis B  521,000 Deaths a Year A third of the World’s population (over 2 billion people) has come in contact with this virus, including 350 million chronic carriers. In China and other parts of Asia, up to 10% of the adult population is chronically infected. The symptoms of acute hepatitis B include yellowing of the skin of eyes, dark urine, vomiting, nausea, extreme fatigue, and abdominal pain.

Luckily, more than 95% of people who contract the virus as adults or older children will make a full recovery and develop immunity to the disease. In other people, however, hepatitis B can bring on chronic liver failure due to cirrhosis or cancer.

Hepatitis B is an infectious illness of the liver caused by the hepatitis B virus (HBV) that affects hominoidea, including humans. It was originally known as "serum hepatitis". Many people have no symptoms during the initial infected. Some develop an acute illness with vomiting, yellow skin, dark urine and abdominal pain. Often these symptoms last a few weeks and rarely result in death. It may take 30 to 180 days for symptoms to begin. Less than 10% of those infected develop chronic hepatitis B. In those with chronic disease cirrhosis and liver cancer may eventually develop.

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The virus is transmitted by exposure to infectious blood or body fluidsInfection around the time of birth is the most common way the disease is acquired in areas of the world where is common. In areas where the disease is uncommon intravenous drug use and sex are the most common routes of infection. Other risk factors include working in a healthcare setting, blood transfusions, dialysis, sharing razors or toothbrushes with an infected person, travel in countries where it is common, and living in an institution.

Tattooing and acupuncture led to a significant number of cases in the 1980s; however, this has become less common with improved sterility. The hepatitis B viruses cannot be spread by holding hands, sharing eating utensils or drinking glasses, kissing, hugging, coughing, sneezing, or breastfeeding.  The hepatitis B virus is a hepadnavirushepa from hepatotropic (attracted to the liver) and dna because it is a DNA virus. The viruses replicate through an RNA intermediate form by reverse transcription, which in practice relates them to retroviruses.It is 50 to 100 times more infectious than HIV.

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The infection has been preventable by vaccination since 1982. During the initial infected care is based on the symptoms present. In those who developed chronic disease antiviral medication such as tenofovir or interferon maybe useful, however are expensive.

About a third of the world population has been infected at one point in their lives, including 350 million who are chronic carriers. Over 750,000 people die of hepatitis B a year. The disease has caused outbreaks in parts of Asia and Africa, and it is now only common in China. Between 5 and 10% of adults in sub-Saharan Africa and East Asia have chronic disease. Research is in progress to create edible HBV vaccines in foods such as potatoes, carrots, and bananas.In 2004, an estimated 350 million individuals were infected worldwide. National and regional prevalence ranges from over 10% in Asia to under 0.5% in the United States and northern Europe. Routes of infection include vertical transmission (such as through childbirth), early life horizontal transmission (bites, lesions, and sanitary habits), and adult horizontal transmission (sexual contact, intravenous drug use).

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The primary method of transmission reflects the prevalence of chronic HBV infection in a given area. In low prevalence areas such as the continental United States and Western Europe, injection drug abuse and unprotected sex are the primary methods, although other factors may also be important. In moderate prevalence areas, which include Eastern Europe, Russia, and Japan, where 2–7% of the population is chronically infected, the disease is predominantly spread among children. In high-prevalence areas such as China and South East Asia, transmission during childbirth is most common, although in other areas of high endemicity such as Africa, transmission during childhood is a significant factor. The prevalence of chronic HBV infection in areas of high endemicity is at least 8% with 10-15% prevalence in Africa/Far East. As of 2010, China has 120 million infected people, followed by India and Indonesia with 40 million and 12 million, respectively. According to World Health Organization (WHO), an estimated 600,000 people die every year related to the infection. In the United States about 19,000 new cases occurred in 2011 down nearly 90% from 1990.

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Acute infection with hepatitis B virus is associated with acute viral hepatitis – an illness that begins with general ill-health, loss of appetite, nausea, vomiting, body aches, mild fever, and dark urine, and then progresses to development of jaundice. It has been noted that itchy skin has been an indication as a possible symptom of all hepatitis virus types. The illness lasts for a few weeks and then gradually improves in most affected people. A few people may have more severe liver disease (fulminant hepatic failure), and may die as a result. The infection may be entirely asymptomatic and may go unrecognized.

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Chronic infection with hepatitis B virus either may be asymptomatic or may be associated with a chronic inflammation of the liver (chronic hepatitis), leading to cirrhosis over a period of several years. This type of infection dramatically increases the incidence of hepatocellular carcinoma (liver cancer). Across Europe hepatitis B and C cause approximately 50% of hepatocellular carcinomas. Chronic carriers are encouraged to avoid consuming alcohol as it increases their risk for cirrhosis and liver cancer. Hepatitis B virus has been linked to the development of membranous glomerulonephritis (MGN).

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Symptoms outside of the liver are present in 1–10% of HBV-infected people and include serum-sickness–like syndrome, acute necrotizing vasculitis (polyarteritis nodosa), membranous glomerulonephritis, and papular acrodermatitis of childhood (Gianotti–Crosti syndrome). The serum-sickness–like syndrome occurs in the setting of acute hepatitis B, often preceding the onset of jaundice. The clinical features are fever, skin rash, and polyarteritis. The symptoms often subside shortly after the onset of jaundice, but can persist throughout the duration of acute hepatitis B.  About 30–50% of people with acute necrotizing vasculitis (polyarteritis nodosa) are HBV carriers. HBV-associated nephropathy has been described in adults but is more common in children.Membranous glomerulonephritis is the most common form. Other immune-mediated hematological disorders, such as essential mixed cryoglobulinemia and aplastic anemia.

15. Influenza 500,000 Deaths a Year Influenza has been a prolific killer for centuries. The symptoms of influenza were first described more than 2,400 years ago by Hippocrates. Pandemics generally occur three times a century, and can cause millions of deaths. The most fatal pandemic on record was the Spanish flu outbreak in 1918, which caused between 20 million and 100 million deaths. In order to invade a host, the virus shell includes proteins that bind themselves to receptors on the outside of cells in the lungs and air passages of the victim. Once the virus has latched itself onto the cell it takes over so much of its machinery that the cell dies. Dead cells in the airways cause a runny nose and sore throat. Too many dead cells in the lungs causes death.

 
Vaccinations against the flu are common in developed countries. However, a vaccination that is effective one year may not necessarily work the next year, due to the way the rate at which a flu virus evolves and the fact that new strains will soon replace older ones. No virus can claim credit for more worldwide pandemics and scares than influenza.

The outbreak of the Spanish flu in 1918 is generally considered to be one of the worst pandemics in human history, infecting 20 to 40 percent of the world’s population and killing 50 million in the span of just two years. (A reconstruction of that virus is above.) The swine flu was its most recent newsmaker, when a 2009 pandemic may have seen as many as 89 million people infected worldwide.

Effective influenza vaccines exist, and most people easily survive infections. But the highly infectious respiratory illness is cunning—the virus is constantly mutating and creating new strains. Thousands of strains exist at any given time, many of them harmless, and vaccines available in the U.S. cover only about 40 percent of the strains at large each year.

16. Hepatitis C  56,000 Deaths a Year An estimated 200-300 million people worldwide are infected with hepatitis C.

 

Most people infected with hepatitis C don’t have any symptoms and feel fine for years. However, liver damage invariably rears its ugly head over time, often decades after first infection. In fact, 70% of those infected develop chronic liver disease, 15% are struck with cirrhosis and 5% can die from liver cancer or cirrhosis. In the USA, hepatitis C is the primary reason for liver transplants.

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Hepatitis C is an infectious disease affecting primarily the liver, caused by the hepatitis C virus (HCV). The infection is often asymptomatic, but chronic infection can lead to scarring of the liver and ultimately to cirrhosis, which is generally apparent after many years. In some cases, those with cirrhosis will go on to develop liver failure, liver cancer, or life-threatening esophageal and gastric varices.

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HCV is spread primarily by blood-to-blood contact associated with intravenous drug use, poorly sterilized medical equipment, and transfusions. An estimated 150–200 million people worldwide are infected with hepatitis C. The existence of hepatitis C (originally identifiable only as a type of non-A non-B hepatitis) was suggested in the 1970s and proven in 1989. Hepatitis C infects only humans and chimpanzees.

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The virus persists in the liver in about 85% of those infected. This chronic infection can be treated with medication: the standard therapy is a combination of peginterferon and ribavirin, with either boceprevir or telaprevir added in some cases. Overall, 50–80% of people treated are cured. Those who develop cirrhosis or liver cancer may require a liver transplant. Hepatitis C is the leading reason for liver transplantation, though the virus usually recurs after transplantation. No vaccine against hepatitis C is available.

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Hepatitis C infection causes acute symptoms in 15% of cases. Symptoms are generally mild and vague, including a decreased appetite, fatigue, nausea, muscle or joint pains, and weight loss and rarely does acute liver failure result. Most cases of acute infection are not associated with jaundice. The infection resolves spontaneously in 10–50% of cases, which occurs more frequently in individuals who are young and female.

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About 80% of those exposed to the virus develop a chronic infection.  This is defined as the presence of detectable viral replication for at least six months. Most experience minimal or no symptoms during the initial few decades of the infection.Chronic hepatitis C can be associated with fatigue and mild cognitive problems. Chronic infection after several years may cause cirrhosis or liver cancer. The liver enzymes are normal in 7–53%.  Late relapses after apparent cure have been reported, but these can be difficult to distinguish from reinfection.

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Fatty changes to the liver occur in about half of those infected and are usually present before cirrhosis develops.  Usually (80% of the time) this change affects less than a third of the liver. Worldwide hepatitis C is the cause of 27% of cirrhosis cases and 25% of hepatocellular carcinoma.  About 10–30% of those infected develop cirrhosis over 30 years. Cirrhosis is more common in those also infected with hepatitis B, schistosoma, or HIV, in alcoholics and in those of male gender. In those with hepatitis C, excess alcohol increases the risk of developing cirrhosis 100-fold.Those who develop cirrhosis have a 20-fold greater risk of hepatocellular carcinoma. This transformation occurs at a rate of 1–3% per year.  Being infected with hepatitis B in additional to hepatitis C increases this risk further.

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Liver cirrhosis may lead to portal hypertension, ascites (accumulation of fluid in the abdomen), easy bruising or bleeding, varices (enlarged veins, especially in the stomach and esophagus), jaundice, and a syndrome of cognitive impairment known as hepatic encephalopathy. Ascites occurs at some stage in more than half of those who have a chronic infection.

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The most common problem due to hepatitis C but not involving the liver is mixed cryoglobulinemia (usually the type II form) — an inflammation of small and medium-sized blood vessels. Hepatitis C is also associated with Sjögren’s syndrome (an autoimmune disorder); thrombocytopenia; lichen planus; porphyria cutanea tarda; necrolytic acral erythema; insulin resistance; diabetes mellitus; diabetic nephropathy; autoimmune thyroiditis and B-cell lymphoproliferative disorders.  Thrombocytopenia is estimated to occur in 0.16% to 45.4% of people with chronic hepatitis C. 20–30% of people infected have rheumatoid factor — a type of antibody. Possible associations include Hyde’s prurigo nodularis and membranoproliferative glomerulonephritis. Cardiomyopathy with associated arrhythmias has also been reported. A variety of central nervous system disorders have been reported.  Chronic infection seems to be associated with an increased risk of pancreatic cancer.

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Persons who have been infected with hepatitis C may appear to clear the virus but remain infected. The virus is not detectable with conventional testing but can be found with ultra-sensitive tests.The original method of detection was by demonstrating the viral genome within liver biopsies, but newer methods include an antibody test for the virus’ core protein and the detection of the viral genome after first concentrating the viral particles by ultracentrifugation. A form of infection with persistently moderately elevated serum liver enzymes but without antibodies to hepatitis C has also been reported. This form is known as cryptogenic occult infection.

Causes of hep C(4)

Several clinical pictures have been associated with this type of infection. It may be found in people with anti-hepatitis-C antibodies but with normal serum levels of liver enzymes; in antibody-negative people with ongoing elevated liver enzymes of unknown cause; in healthy populations without evidence of liver disease; and in groups at risk for HCV infection including those on haemodialysis or family members of people with occult HCV. The clinical relevance of this form of infection is under investigation. The consequences of occult infection appear to be less severe than with chronic infection but can vary from minimal to hepatocellular carcinoma.

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The rate of occult infection in those apparently cured is controversial but appears to be low 40% of those with hepatitis but with both negative hepatitis C serology and the absence of detectable viral genome in the serum have hepatitis C virus in the liver on biopsy.How commonly this occurs in children is unknown.
There is no cure, no vaccine.

17. Measle  197,000 Deaths a Year Measles, also known as Rubeola, has done a pretty good job of killing people throughout the ages. Over the last 150 years, the virus has been responsible for the deaths of around 200 million people. The fatality rate from measles for otherwise healthy people in developed countries is 3 deaths per thousand cases, or 0.3%. In underdeveloped nations with high rates of malnutrition and poor healthcare, fatality rates have been as high as 28%. In immunocompromised patients (e.g. people with AIDS) the fatality rate is approximately 30%.

During the 1850s, measles killed a fifth of Hawaii’s people. In 1875, measles killed over 40,000 Fijians, approximately one-third of the population. In the 19th century, the disease decimated the Andamanese population. In 1954, the virus causing the disease was isolated from an 11-year old boy from the United States, David Edmonston, and adapted and propagated on chick embryo tissue culture.


To date, 21 strains of the measles virus have been identified.

18. Yellow Fever  30,000 Deaths a Year. Yellow fever is an acute viral hemorrhagic disease transmitted by the bite of female mosquitoes and is found in tropical and subtropical areas in South America and Africa. The only known hosts of the virus are primates and several species of mosquito. The origin of the disease is most likely to be Africa, from where it was introduced to South America through the slave trade in the 16th century. Since the 17th century, several major epidemics of the disease have been recorded in the Americas, Africa and Europe. In the 19th century, yellow fever was deemed one of the most dangerous infectious diseases.

Yellow fever presents in most cases with fever, nausea, and pain and it generally subsides after several days. In some patients, a toxic phase follows, in which liver damage with jaundice (giving the name of the disease) can occur and lead to death. Because of the increased bleeding tendency (bleeding diathesis), yellow fever belongs to the group of hemorrhagic fevers.

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Since the 1980s, the number of cases of yellow fever has been increasing, making it a reemerging disease Transmitted through infected mosquitoes, Yellow Fever is still a serious problem in countries all over the world and a serious health risk for travelers to Africa, South America and some areas in the Caribbean.  Fatality rates range from 15 to over 50%. Symptoms include high fever, headache, abdominal pain, fatigue, vomiting and nausea.

Yellow fever is a hemorrhagic fever transmitted by infected mosquitoes. The yellow is in reference to the yellow color (jaundice) that affects some patients. The virus is endemic in tropical areas in Africa and South America.

The disease typically occurs in two phases. The first phase typically causes fever, headache, muscle pain and back pain, chills and nausea. Most patients recover from these symptoms while 15% progresses to the toxic second phase. High fever returns, jaundice becomes apparent, patient complains of abdominal pain with vomiting, and bleeding in the mouth, eyes, nose or stomach occurs. Blood appears in the stool or vomit and kidney function deteriorates. 50% of the patients that enter the toxic phase die within 10 to 14 days.

There is no treatment for yellow fever. Patients are only given supportive care for fever, dehydration and respiratory failure. Yellow fever is preventable through vaccination.

19. Rabies  55,000 Deaths a Year Rabies is almost invariably fatal if post-exposure prophylaxis is not administered prior to the onset of severe symptoms. If there wasn’t a vaccine, this would be the most deadly virus on the list.

It is a zoonotic virus transmitted through the bite of an animal. The virus worms its way into the brain along the peripheral nerves. The incubation phase of the rabies disease can take up to several months, depending on how far it has to go to reach the central nervous system. It provokes acute pain, violent movements, depression, uncontrollable excitement, and inability to swallow water (rabies is often known as ‘hydrophobia’). After these symptoms subside the fun really starts as the infected person experiences periods of mania followed by coma then death, usually caused by respiratory insufficiency.

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Rabies has a long and storied history dating back to 2300 B.C., with records of Babylonians who went mad and died after being bitten by dogs. While this virus itself is a beast, the sickness it causes is now is wholly preventable if treated immediately with a series of vaccinations (sometimes delivered with a terrifyingly huge needle in the abdomen). We have vaccine inventor Louis Pasteur to thank for that.

Exposure to rabies these days, while rare in the U.S., still occurs as it did thousands of years ago—through bites from infected animals. If left untreated after exposure, the virus attacks the central nervous system and death usually results. The symptoms of an advanced infection include delirium, hallucinations and raging, violent behavior in some cases, which some have argued makes rabies eerily similar to zombification. If rabies ever became airborne, we might actually have to prepare for that zombie apocalypse after all.

21. Common Cold  No known cure The common cold is the most frequent infectious disease in humans with on average two to four infections a year in adults and up to 6–12 in children. Collectively, colds, influenza, and other infections with similar symptoms are included in the diagnosis of influenza-like illness.

They may also be termed upper respiratory tract infections (URTI). Influenza involves the lungs while the common cold does not.
It’s annoying as hell, but there’s nothing to do but wave the white flag on this one.
Virus: Infinity. People: 0

22. Anthrax  Anthrax is a diseased caused by a bacterium called Bacillus Anthracis. There are three types of anthrax, skin, lung, and digestive. Anthrax has lately become a major world issue for its ability to become an epidemic and spread quickly and easily among people through contact with spores.

Anthrax

It is important to know that  Anthrax is not spread from person to person, but is through contact/handling of products containing spores. Flu like symptoms, nausea, and blisters are common symptoms of exposure. Inhalational anthrax and gastrointestinal anthrax are serious issue because of their high mortality rates ranging from 50 to 100%.

Anthrax is a severe infectious disease caused by the bacteria Bacillus anthracis. This type of bacteria produces spores that can live for years in the soil. Anthrax is more common in farm animals, though humans can get infected as well. Anthrax is not contagious. A person can get infected only when the bacteria gets into the skin, lungs or  digestive tract.

There are three types of anthrax: skin anthrax, inhalation anthrax and gastrointestinal anthrax. Skin anthrax symptoms include fever, muscle aches, headache, nausea and vomiting. Inhalation anthrax begins with flu-like symptoms, which progresses  with severe respiratory distress. Shock, coma and then death follows. Most patients do not recover even if given appropriate antibiotics due to the toxins released by the anthrax bacteria. Gastrointestinal anthrax symptoms include fever, nausea, abdominal pain and bloody diarrhea.

Anthrax is treated with antibiotics.

23. Malaria  Malaria is a mosquito-borne illness caused by parasite. Although malaria can be prevented and treated, it is often fatal.

Malaria

Each year about 1 million people die from Malaria.  Common symptoms include fever, chills, headache. Sweats, and fatigue. Malaria is a serious disease caused by Plasmodium parasites that infects Anopheles mosquitoes which feeds on humans. Initial symptoms include high fever, shaking chills, headache and vomiting – symptoms that may be too  mild to be identified as malaria. If not treated within 24 hours, it can progress to severe illnesses that could lead to death.

The WHO estimates that malaria caused 207,000,000 clinical episodes and 627,000 deaths, mostly among African children,  in 2012. About 3.5 billion people from 167 countries live in areas at risk of malaria transmission.

24. Cholera  Due to the severe dehydration it causes, if left untreated Cholera can cause death within hours. In 1991 a major outbreak occurred in South America though currently few cases are known outside of Sub-Saharan Africa.

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Symptoms include severe diarrhea, vomiting and leg cramping. Cholera is usually contracted through ingestion of contaminated water or food. Cholera is an acute intestinal infection caused by a bacterium called Vibrio cholera. It has an incubation period of less than a day to five days and causes painless, watery diarrhea that quickly leads to severe dehydration and death if treatment is not promptly given.

Cholera remains a global problem and continues to be a challenge for countries where access to safe drinking water and sanitation is a problem.

25.  Typhoid Fever  Patients with typhoid fever sometimes demonstrate a rash of flat, rose-colored spots and a sustained fever of 103 to 104.

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Typhoid is contracted through contact with the S. Typhi bacteria, which is carried by humans in both their blood stream and stool. Over 400 cases occur in the US, 20% of those who contract it die. Typhoid fever is a serious and potentially fatal disease caused by the bacterium Salmonella Typhi. This type of bacteria lives only in humans. People sick with typhoid fever carry the bacteria in their bloodstream and intestinal tract and transmit the bacteria through their stool.

A person can get typhoid fever by drinking or eating food contaminated with Salmonella Typhi or if contaminated sewage gets into the water used for drinking or washing dishes.

Typhoid fever symptoms include high fever, weakness, headache, stomach pains or loss of appetite. Typhoid fever is determined by testing the presence of Salmonella Typhi in the stool or blood of an infected person. Typhoid fever is treated with antibiotics.

26. SARS (Severe Acute Respiratory Syndrome) and the MERS VIRUS A new Pneumonia disease that emerged in China in 2003. After news of the outbreak of SARS China tried to silence news about it both internal and international news , SARS spread rapidly, reaching neighboring countries Hong Kong and Vietnam in late February 2003, and then to other countries via international travelers.Canada Had a outbreak that was fairly well covered and cost Canada quite a bit financially

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The last case of this epidemic occurred in June 2003. In that outbreak, 8069 cases arise that killed 775 people. There is speculation that this disease is Man-Made SARS, SARS has symptoms of flu and may include: fever, cough, sore throat and other non-specific symptoms.

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The only symptom that is common to all patients was fever above 38 degrees Celsius. Shortness of breath may occur later. There is currently no vaccine for the disease so that countermeasures can only assist the breathing apparatus. The virus was said to be the Virus of the End Times

27.  MERS(Middle Eastern Respiratory Syndrome) The Middle East respiratory syndrome coronavirus (MERS-CoV), also termed EMC/2012 (HCoV-EMC/2012), is positive-sense, single-stranded RNA novel species of the genus Betacoronavirus.

MERS-CoV

First called novel coronavirus 2012 or simply novel coronavirus, it was first reported in 2012 after genome sequencing of a virus isolated from sputum samples from patients who fell ill in a 2012 outbreak of a new flu.

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As of June 2014, MERS-CoV cases have been reported in 22 countries, including Saudi Arabia, Malaysia, Jordan, Qatar, Egypt, the United Arab Emirates, Kuwait, Oman, Algeria, Bangladesh, the Philippines (still MERS-free), Indonesia (none was confirmed), the United Kingdom, and the United States. Almost all cases are somehow linked to Saudi Arabia. In the same article it was reported that Saudi authorities’ errors in response to MERS-CoV were a contributing factor to the spread of this deadly virus.

27. Enterovirus (Brain Inflammation) Entero virus is a disease of the hands, feet and mouth, and we can not ignored occasional Brain Inflammation. Enterovirus attack symptoms are very similar to regular flu symptoms so its difficult to detect it, such as fever, sometimes accompanied by dizziness and weakness and pain.

Next will come the little red watery bumps on the palms and feet following oral thrush. In severe conditions, Enterovirus can attack the nerves and brain tissue to result in death.

The virus is easily spread through direct contact with patients. Children are the main victims of the spread of enterovirus in China. Since the first victim was found but reporting was delayed until several weeks later.

24 thousand people have contracted the enterovirus. More than 30 of them died mostly children. The virus is reported to have entered Indonesia and infecting three people in Sumatra.  2014Enterovirus 68 is presently spreading across North America mainly and started in the USA has probably spread to Canada and Mexico by now. Enterovirus 68’s spread is unprecedented up till now

28.  The Black Plague  The 1918 flu virus and HIV are the biggest killers of modern times. But back in the 14th century, the bacterium that causes bubonic plague, or the Black Death as it was also known, was the baddest bug of all. In just a few years, from 1347 to 1351, the plague killed off about 75,000,000 people worldwide, including one-third of the entire population of Europe at that time.

Carrying away the victims of plague

It spread through Asia, Italy, North Africa, Spain, Normandy, Switzerland, and eastward into Hungary. After a brief break, it crossed into England, Scotland, and then to Norway, Sweden, Denmark, Iceland and Greenland.

the plague bacterium

Yersinia pestis, the plague bacteria
Courtesy of Neal Chamberlain

The plague bacterium is called Yersinia <yer-sin-ee-uh> pestis. There are two main forms of the disease. In the bubonic <boo-bah-nick> form, the bacteria cause painful swellings as large as an orange to form in the armpits, neck and groin. These swellings, or buboes, often burst open, oozing blood and pus. Blood vessels leak blood that puddles under the skin, giving the skin a blackened look. That’s why the disease became known as the Black Death. At least half of its victims die within a week.

The pneumonic <new-mon-ick> form of plague causes victims to sweat heavily and cough up blood that starts filling their lungs. Almost no one survived it during the plague years. Yersinia pestis is the deadliest microbe we’ve ever known, although HIV might catch up to it. Yersinia pestis is still around in the world. Fortunately, with bacteria-killing antibiotics and measures to control the pests—rats and mice—that spread the bacteria, we’ve managed to conquer this killer.

29. Human Papillomavirus  Human papillomavirus (HPV) is a DNA virus from the papillomavirus family that is capable of infecting humans. Like all papillomaviruses, HPVs establish productive infections only in keratinocytes of the skin or mucous membranes.

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Most HPV infections are subclinical and will cause no physical symptoms; however, in some people subclinical infections will become clinical and may cause benign papillomas (such as warts [verrucae] or squamous cell papilloma), or cancers of the cervix, vulva, vagina, penis, oropharynx and anus.HPV has been linked with an increased risk of cardiovascular disease. In addition, HPV 16 and 18 infections are a cause of a unique type of oropharyngeal (throat) cancer and are believed to cause 70% of cervical cancer, which have available vaccines, see HPV vaccine.

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More than 30 to 40 types of HPV are typically transmitted through sexual contact and infect the anogenital region. Some sexually transmitted HPV types may cause genital warts. Persistent infection with "high-risk" HPV types—different from the ones that cause skin warts—may progress to precancerous lesions and invasive cancer. High-risk HPV infection is a cause of nearly all cases of cervical cancer.However, most infections do not cause disease.

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Seventy percent of clinical HPV infections, in young men and women, may regress to subclinical in one year and ninety percent in two years. However, when the subclinical infection persists—in 5% to 10% of infected women—there is high risk of developing precancerous lesions of the vulva and cervix, which can progress to invasive cancer. Progression from subclinical to clinical infection may take years; providing opportunities for detection and treatment of pre-cancerous lesions.

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In more developed countries, cervical screening using a Papanicolaou (Pap) test or liquid-based cytology is used to detect abnormal cells that may develop into cancer. If abnormal cells are found, women are invited to have a colposcopy. During a colposcopic inspection, biopsies can be taken and abnormal areas can be removed with a simple procedure, typically with a cauterizing loop or, more commonly in the developing world—by freezing (cryotherapy).

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Treating abnormal cells in this way can prevent them from developing into cervical cancer. Pap smears have reduced the incidence and fatalities of cervical cancer in the developed world, but even so there were 11,000 cases and 3,900 deaths in the U.S. in 2008. Cervical cancer has substantial mortality worldwide, there are an estimated 490,000 cases and 270,000 deaths each year.

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It is true that infections caused by human papillomavirus (HPV) are not fatal, but chronic infection may result in cervical cancer. Apparently, HPV is responsible for almost all cervical cancers (approx. 99%). HPV results in 275,000 deaths per year.

30. Henipaviruses The genus Henipavirus comprises of 3 members which are Hendra virus (HeV), Nipah virus (NiV), and Cedar virus (CedPV). The second one was introduced in the middle of 2012, although affected no human, and is therefore considered harmless. The rest of the two viruses, however, are lethal with mortality rate up to 50-100%.

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Hendra virus (originally Equine morbillivirus) was discovered in September 1994 when it caused the deaths of thirteen horses, and a trainer at a training complex in Hendra, a suburb of Brisbane in Queensland, Australia.

The index case, a mare, was housed with 19 other horses after falling ill, and died two days later. Subsequently, all of the horses became ill, with 13 dying. The remaining 6 animals were subsequently euthanized as a way of preventing relapsing infection and possible further transmission.The trainer, Victory (‘Vic’) Rail, and a stable hand were involved in nursing the index case, and both fell ill with an influenza-like illness within one week of the first horse’s death. The stable hand recovered while Mr Rail died of respiratory and renal failure. The source of the virus was most likely frothy nasal discharge from the index case.

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A second outbreak occurred in August 1994 (chronologically preceding the first outbreak) in Mackay 1,000 km north of Brisbane resulting in the deaths of two horses and their owner. The owner, Mark Preston, assisted in necropsies of the horses and within three weeks was admitted to hospital suffering from meningitis. Mr Preston recovered, but 14 months later developed neurologic signs and died. This outbreak was diagnosed retrospectively by the presence of Hendra virus in the brain of the patient.pathogens-02-00264-g002-1024

A survey of wildlife in the outbreak areas was conducted, and identified pteropid fruit bats as the most likely source of Hendra virus, with a seroprevalence of 47%. All of the other 46 species sampled were negative. Virus isolations from the reproductive tract and urine of wild bats indicated that transmission to horses may have occurred via exposure to bat urine or birthing fluids.  However, the only attempt at experimental infection reported in the literature, conducted at CSIRO Geelong, did not result in infection of a horse from infected flying foxes. This study looked at potential infection between bats, horses and cats, in various combinations. The only species that was able to infect horses was the cat (Felix spp.)

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Nipah virus was identified in April 1999, when it caused an outbreak of neurological and respiratory disease on pig farms in peninsular Malaysia, resulting in 257 human cases, including 105 human deaths and the culling of one million pigs.  In Singapore, 11 cases, including one death, occurred in abattoir workers exposed to pigs imported from the affected Malaysian farms. The Nipah virus has been classified by the Centers for Disease Control and Prevention as a Category C agent. The name "Nipah" refers to the place, Kampung Baru Sungai Nipah in Negeri Sembilan State, Malaysia, the source of the human case from which Nipah virus was first isolated.

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The outbreak was originally mistaken for Japanese encephalitis (JE), however, physicians in the area noted that persons who had been vaccinated against JE were not protected, and the number of cases among adults was unusual Despite the fact that these observations were recorded in the first month of the outbreak, the Ministry of Health failed to react accordingly, and instead launched a nationwide campaign to educate people on the dangers of JE and its vector, Culex mosquitoes.

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Symptoms of infection from the Malaysian outbreak were primarily encephalitic in humans and respiratory in pigs. Later outbreaks have caused respiratory illness in humans, increasing the likelihood of human-to-human transmission and indicating the existence of more dangerous strains of the virus. Based on seroprevalence data and virus isolations, the primary reservoir for Nipah virus was identified as Pteropid fruit bats, including Pteropus vampyrus (Large Flying Fox), and Pteropus hypomelanus (Small flying fox), both of which occur in Malaysia.

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The transmission of Nipah virus from flying foxes to pigs is thought to be due to an increasing overlap between bat habitats and piggeries in peninsular Malaysia. At the index farm, fruit orchards were in close proximity to the piggery, allowing the spillage of urine, feces and partially eaten fruit onto the pigs. Retrospective studies demonstrate that viral spillover into pigs may have been occurring in Malaysia since 1996 without detection. During 1998, viral spread was aided by the transfer of infected pigs to other farms, where new outbreaks occurred.

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Cedar Virus (CedPV) was first identified in pteropid urine during work on Hendra virus undertaken in Queensland in 2009. Although the virus is reported to be very similar to both Hendra and Nipah, it does not cause illness in laboratory animals usually susceptible to paramyxoviruses. Animals were able to mount an effective response and create effective antibodies.3273481_pone.0027918.g003

The scientists who identified the virus report:

Hendra and Nipah viruses are 2 highly pathogenic paramyxoviruses that have emerged from bats within the last two decades. Both are capable of causing fatal disease in both humans and many mammal species. Serological and molecular evidence for henipa-like viruses have been reported from numerous locations including Asia and Africa, however, until now no successful isolation of these viruses have been reported. This paper reports the isolation of a novel paramyxovirus, named Cedar virus, from fruit bats in Australia. Full genome sequencing of this virus suggests a close relationship with the henipaviruses.
 
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Antibodies to Cedar virus were shown to cross react with, but not cross neutralize Hendra or Nipah virus. Despite this close relationship, when Cedar virus was tested in experimental challenge models in ferrets and guinea pigs, we identified virus replication and generation of neutralizing antibodies, but no clinical disease was observed. As such, this virus provides a useful reference for future reverse genetics experiments to determine the molecular basis of the pathogenicity of the henipaviruses.

30. Lyssaviruses  This genus comprises of not only rabies virus (causing death of almost everyone who is infected) but certain other viruses such as Duvenhage virus, Mokola virus, and Australian bat lyssavirus. Although small number of cases are reported, but the ones reported have always been fatal. Bats are vectors for all of these types except for Mokola virus.

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Lyssavirus (from Lyssa, the Greek goddess of madness, rage, and frenzy) is a genus of viruses belonging to the family Rhabdoviridae, in the order Mononegavirales. This group of RNA viruses includes the rabies virus traditionally associated with the disease. Viruses typically have either helical or cubic symmetry. Lyssaviruses have helical symmetry, so their infectious particles are approximately cylindrical in shape. This is typical of plant-infecting viruses. Human-infecting viruses more commonly have cubic symmetry and take shapes approximating regular polyhedra. The structure consists of a spiked outer envelope, a middle region consisting of matrix protein M, and an inner ribonucleocapsid complex region, consisting of the genome associated with other proteins.

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Lyssavirus genome consists of a negative-sense, single-stranded RNA molecule that encodes five viral proteins: polymerase L, matrix protein M, phosphoprotein P, nucleoprotein N, and glycoprotein G.

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Based on recent phylogenetic evidence, lyssa viruses are categorized into seven major species. In addition, five species recently have been discovered: West Caucasian bat virus, Aravan virus, Khuj and virus, Irkut virus and Shimoni bat virus. The major species include rabies virus (species 1), Lagos bat virus (species 2), Mokola virus (species 3), Duvenhage virus (species 4), European Bat lyssaviruses type 1 and 2 (species 5 and 6), and Australian bat lyssavirus (species 7).83980497

Based on biological properties of the viruses, these species are further subdivided into phylogroups 1 and 2. Phylogroup 1 includes genotypes 1, 4, 5, 6, and 7, while phylogroup 2 includes genotypes 2 and 3. The nucleocapsid region of lyssavirus is fairly highly conserved from genotype to genotype across both phylogroups; however, experimental data have shown the lyssavirus strains used in vaccinations are only from the first species(i.e. classic rabies).

31. Tuberculosis  Mucous, fever, fatigue, excessive sweating and weight loss. What do they all have in common?

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They are symptoms of pulmonary tuberculosis, or TB. TB is a contagious bacterial infection that involves the lungs, but it may spread to other organs. The symptoms of this disease can remain stagnant for years or affect the person right away. People at higher risk for contracting TB include the elderly, infants and those with weakened immune systems due to other diseases, such as AIDS or diabetes, or even individuals who have undergone chemotherapy.

Being around others who may have TB, maintaining a poor diet or living in unsanitary conditions are all risk factors for contracting TB. In the United States, there are approximately 10 cases of TB per 100,000 people. Tuberculosis, MTB, or TB (short for tubercle bacillus), in the past also called phthisis, phthisis pulmonalis, or consumption, is a widespread, and in many cases fatal, infectious disease caused by various strains of mycobacteria, usually Mycobacterium tuberculosis.

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Tuberculosis typically attacks the lungs, but can also affect other parts of the body. It is spread through the air when people who have an active TB infection cough, sneeze, or otherwise transmit respiratory fluids through the air. Most infections do not have symptoms, known as latent tuberculosis. About one in ten latent infections eventually progresses to active disease which, if left untreated, kills more than 50% of those so infected.

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The classic symptoms of active TB infection are a chronic cough with blood-tinged sputum, fever, night sweats, and weight loss (the latter giving rise to the formerly common term for the disease, "consumption"). Infection of other organs causes a wide range of symptoms. Diagnosis of active TB relies on radiology (commonly chest X-rays), as well as microscopic examination and microbiological culture of body fluids.

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Diagnosis of latent TB relies on the tuberculin skin test (TST) and/or blood tests. Treatment is difficult and requires administration of multiple antibiotics over a long period of time. Social contacts are also screened and treated if necessary. Antibiotic resistance is a growing problem in multiple drug-resistant tuberculosis (MDR-TB) infections. Prevention relies on screening programs and vaccination with the bacillus Calmette-Guérin vaccine.

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One-third of the world’s population is thought to have been infected with M. tuberculosis, with new infections occurring in about 1% of the population each year.In 2007, an estimated 13.7 million chronic cases were active globally, while in 2010, an estimated 8.8 million new cases and 1.5 million associated deaths occurred, mostly in developing countries. The absolute number of tuberculosis cases has been decreasing since 2006, and new cases have decreased since 2002.

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The rate of tuberculosis in different areas varies across the globe; about 80% of the population in many Asian and African countries tests positive in tuberculin tests, while only 5–10% of the United States population tests positive. More people in the developing world contract tuberculosis because of a poor immune system, largely due to high rates of HIV infection and the corresponding development of AIDS.

32. Encephalitis Virus Encephalitis is an acute inflammation of the brain, commonly caused by a viral infection. Victims are usually exposed to viruses resulting in encephalitis by insect bites or food and drink. The most frequently encountered agents are arboviruses (carried by mosquitoes or ticks) and enteroviruses ( coxsackievirus, poliovirus and echovirus ). Some of the less frequent agents are measles, rabies, mumps, varicella and herpes simplex viruses.

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Patients with encephalitis suffer from fever, headache, vomiting, confusion, drowsiness and photophobia. The symptoms of encephalitis are caused by brain’s defense mechanisms being activated to get rid of infection (brain swelling, small bleedings and cell death). Neurologic examination usually reveals a stiff neck due to the irritation of the meninges covering the brain. Examination of the cerebrospinal fluidCerebrospinal fluid CSF in short, is the clear fluid that occupies the subarachnoid space (the space between the skull and cortex of the brain). It acts as a "cushion" or buffer for the cortex.

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Also, CSF occupies the ventricular system of the brain and the obtained by a lumbar puncture In medicine, a lumbar puncture (colloquially known as a spinal tap is a diagnostic procedure that is done to collect a sample of cerebrospinal fluid (CSF) for biochemical, microbiological and cytological analysis. Indications The most common indication for procedure reveals increased amounts of proteins and white blood cells with normal glucose. A CT scan examination is performed to reveal possible complications of brain swelling, brain abscess Brain abscess (or cerebral abscess) is an abscess caused by inflammation and collection of infected material coming from local (ear infection, infection of paranasal sinuses, infection of the mastoid air cells of the temporal bone, epidural abscess) or re or bleeding. Lumbar puncture procedure is performed only after the possibility of a prominent brain swelling is excluded by a CT scan examination.

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What are the main Symptoms?
Some patients may have symptoms of a cold or stomach infection before encephalitis symptoms begin.
When a case of encephalitis is not very severe, the symptoms may be similar to those of other illnesses, including:
• Fever that is not very high
• Mild headache
• Low energy and a poor appetite
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Other symptoms include:
• Clumsiness, unsteady gait
• Confusion, disorientation
• Drowsiness
• Irritability or poor temper control
• Light sensitivity
• Stiff neck and back (occasionally)
• Vomiting
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Symptoms in newborns and younger infants may not be as easy to recognize:
• Body stiffness
• Irritability and crying more often (these symptoms may get worse when the baby is picked up)
• Poor feeding
• Soft spot on the top of the head may bulge out more
• Vomiting
Encephalitis

• Loss of consciousness, poor responsiveness, stupor, coma
• Muscle weakness or paralysis
• Seizures
• Severe headache
• Sudden change in mental functions:
• "Flat" mood, lack of mood, or mood that is inappropriate for the situation
• Impaired judgment
• Inflexibility, extreme self-centeredness, inability to make a decision, or withdrawal from social interaction
• Less interest in daily activities
• Memory loss (amnesia), impaired short-term or long-term memory

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Children and adults should avoid contact with anyone who has encephalitis.
Controlling mosquitoes (a mosquito bite can transmit some viruses) may reduce the chance of some infections that can lead to encephalitis.
• Apply an insect repellant containing the chemical, DEET when you go outside (but never use DEET products on infants younger than 2 months).
• Remove any sources of standing water (such as old tires, cans, gutters, and wading pools).
• Wear long-sleeved shirts and pants when outside, particularly at dusk.
Vaccinate animals to prevent encephalitis caused by the rabies virus.

 

33. Chicken Pox Virus Chickenpox is a highly contagious disease caused by primary infection with varicella zoster virus (VZV).It usually starts with a vesicular skin rash mainly on the body and head rather than on the limbs. The rash develops into itchy, raw pockmarks, which mostly heal without scarring. On examination, the observer typically finds skin lesions at various stages of healing and also ulcers in the oral cavity and tonsil areas. The disease is most commonly observed in children.

chicken-pox-virus-cell-543

Chickenpox is an airborne disease which spreads easily through coughing or sneezing by ill individuals or through direct contact with secretions from the rash. A person with chickenpox is infectious one to two days before the rash appears. They remain contagious until all lesions have crusted over (this takes approximately six days). Immunocompromised patients are contagious during the entire period as new lesions keep appearing. Crusted lesions are not contagious.Chickenpox has been observed in other primates, including chimpanzees and gorillas.

chicken-pox-virus-cell-5414

The origin of the term chicken pox, which is recorded as being used since 1684,is not reliably known. It has been said to be a derived from chickpeas, based on resemblance of the vesicles to chickpeas, or to come from the rash resembling chicken pecks. Other suggestions include the designation chicken for a child (i.e., literally ‘child pox’), a corruption of itching-pox, or the idea that the disease may have originated in chickens. Samuel Johnson explained the designation as "from its being of no very great danger."

Chickenpox

The early (prodromal) symptoms in adolescents and adults are nausea, loss of appetite, aching muscles, and headache. This is followed by the characteristic rash or oral sores, malaise, and a low-grade fever that signal the presence of the disease. Oral manifestations of the disease (enanthem) not uncommonly may precede the external rash (exanthem). In children the illness is not usually preceded by prodromal symptoms, and the first sign is the rash or the spots in the oral cavity. The rash begins as small red dots on the face, scalp, torso, upper arms and legs; progressing over 10–12 hours to small bumps, blisters and pustules; followed by umbilication and the formation of scabs.

chickenpox1

At the blister stage, intense itching is usually present. Blisters may also occur on the palms, soles, and genital area. Commonly, visible evidence of the disease develops in the oral cavity & tonsil areas in the form of small ulcers which can be painful or itchy or both; this enanthem (internal rash) can precede the exanthem (external rash) by 1 to 3 days or can be concurrent. These symptoms of chickenpox appear 10 to 21 days after exposure to a contagious person. Adults may have a more widespread rash and longer fever, and they are more likely to experience complications, such as varicella pneumonia.Because watery nasal discharge containing live virus usually precedes both exanthem (external rash) and enanthem (oral ulcers) by 1 to 2 days, the infected person actually becomes contagious one to two days prior to recognition of the disease. Contagiousness persists until all vesicular lesions have become dry crusts (scabs), which usually entails four or five days, by which time nasal shedding of live virus also ceases.

chicken-pox-virus-cell-5410

Chickenpox is rarely fatal, although it is generally more severe in adult men than in women or children. Non-immune pregnant women and those with a suppressed immune system are at highest risk of serious complications. Arterial ischemic stroke (AIS) associated with chickenpox in the previous year accounts for nearly one third of childhood AIS. The most common late complication of chickenpox is shingles (herpes zoster), caused by reactivation of the varicella zoster virus decades after the initial, often childhood, chickenpox infection.

chicken-pox-virus-cell-5415

Shingles  Herpes zoster After a chickenpox infection, the virus remains dormant in the body’s nerve tissues. The immune system keeps the virus at bay, but later in life, usually as an adult, it can be reactivated and cause a different form of the viral infection called shingles (scientifically known as herpes zoster). The United States Advisory Committee on Immunization Practices (ACIP) suggests that any adult over the age of 60 years gets the herpes zoster vaccine as a part of their normal medical check ups.

herpes-zoster-shingles

Many adults who have had chickenpox as children are susceptible to shingles as adults, often with the accompanying condition postherpetic neuralgia, a painful condition that makes it difficult to sleep. Even after the shingles rash has gone away, there can be night pain in the area affected by the rash.Shingles affects one in five adults infected with chickenpox as children, especially those who are immune suppressed, particularly from cancer, HIV, or other conditions.

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However, stress can bring on shingles as well, although scientists are still researching the connection.Shingles are most commonly found in adults over the age of 60 who were diagnosed with chickenpox when they were under the age of 1.A shingles vaccine is available for adults over 50 who have had childhood chickenpox or who have previously had shingles.

34. POXVIRUS  Poxviruses (members of the family Poxviridae) are viruses that can, as a family, infect both vertebrate and invertebrate animals.

poxvirus-2012-i7

Four genera of poxviruses may infect humans: orthopox, parapox, yatapox, molluscipox. Orthopox: smallpox virus (variola), vaccinia virus, cowpox virus, monkeypox virus; Parapox: orf virus, pseudocowpox, bovine papular stomatitis virus; Yatapox: tanapox virus, yaba monkey tumor virus; Molluscipox: molluscum contagiosum virus (MCV).The most common are vaccinia (seen on Indian subcontinent) and molluscum contagiousum, but monkeypox infections are rising (seen in west and central African rainforest countries). Camelpox is a disease of camels caused by a virus of the family Poxviridae, subfamily Chordopoxvirinae, and the genus Orthopoxvirus. It causes skin lesions and a generalized infection. Approximately 25% of young camels that become infected will die from the disease, while infection in older camels is generally more mild.

Poxvirus model in section (Pov_Ray)

The ancestor of the poxviruses is not known but structural studies suggest it may have been an adenovirus or a species related to both the poxviruses and the adenoviruses. Based on the genome organization and DNA replication mechanism it seems that phylogenetic relationships may exist between the rudiviruses (Rudiviridae) and the large eukaryal DNA viruses: the African swine fever virus (Asfarviridae), Chlorella viruses (Phycodnaviridae) and poxviruses (Poxviridae).The mutation rate in these genomes has been estimated to be 0.9-1.2 x 10−6 substitutions per site per year.A second estimate puts this rate at 0.5-7 × 10−6 nucleotide substitutions per site per year.  A third estimate places the rate at 4-6 × 10−6.

20409_S_poxvirus-replication-m

The last common ancestor of the extant poxviruses that infect vertebrates existed 0.5 million years ago. The genus Avipoxvirus diverged from the ancestor 249 ± 69 thousand years ago. The ancestor of the genus Orthopoxvirus was next to diverge from the other clades at 0.3 million years ago. A second estimate of this divergence time places this event at 166,000 ± 43,000 years ago. The division of the Orthopox into the extant genera occurred ~14,000 years ago. The genus Leporipoxvirus diverged ~137,000 ± 35,000 years ago. This was followed by the ancestor of the genus Yatapoxvirus. The last common ancestor of the Capripoxvirus and Suipoxvirus diverged 111,000 ± 29,000 years ago.

Poxvirus Pov-Ray model 2

A model of a poxvirus cut-away in
cross-section to show the internal
structures. Poxviruses are shaped like
flattened capsules/barrels or are lens or
pill-shaped.

Poxvirus Pov-Ray model 3

Their structure is complex,
neither icosahedral nor helical. This
model is based on Vaccinia, the smallpox
virus. The structures are also highly
variable and often incompletely studied.

 

35. West Nile Virus  West Nile virus (WNV) is a mosquito-borne zoonotic arbovirus belonging to the genus Flavivirus in the family Flaviviridae.

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This flavivirus is found in temperate and tropical regions of the world. It was first identified in the West Nile subregion in the East African nation of Uganda in 1937. Prior to the mid-1990s, WNV disease occurred only sporadically and was considered a minor risk for humans, until an outbreak in Algeria in 1994, with cases of WNV-caused encephalitis, and the first large outbreak in Romania in 1996, with a high number of cases with neuroinvasive disease. WNV has now spread globally, with the first case in the Western Hemisphere being identified in New York City in 1999; over the next five years, the virus spread across the continental United States, north into Canada, and southward into the Caribbean islands and Latin America. WNV also spread to Europe, beyond the Mediterranean Basin, and a new strain of the virus was identified in Italy in 2012. WNV is now considered to be an endemic pathogen in Africa, Asia, Australia, the Middle East, Europe and in the United States, which in 2012 has experienced one of its worst epidemics. In 2012, WNV killed 286 people in the United States, with the state of Texas being hard hit by this virus, making the year the deadliest on record for the United States.

West_Nile_virus_transmission_cycle

The main mode of WNV transmission is via various species of mosquitoes, which are the prime vector, with birds being the most commonly infected animal and serving as the prime reservoir host—especially passerines, which are of the largest order of birds, Passeriformes. WNV has been found in various species of ticks, but current research suggests they are not important vectors of the virus. WNV also infects various mammal species, including humans, and has been identified in reptilian species, including alligators and crocodiles, and also in amphibians. Not all animal species that are susceptible to WNV infection, including humans, and not all bird species develop sufficient viral levels to transmit the disease to uninfected mosquitoes, and are thus not considered major factors in WNV transmission.

Culex_sp_larvae

Approximately 80% of West Nile virus infections in humans are subclinical, which cause no symptoms. In the cases where symptoms do occur—termed West Nile fever in cases without neurological disease—the time from infection to the appearance of symptoms (incubation period) is typically between 2 and 15 days. Symptoms may include fever, headaches, fatigue, muscle pain or aches, malaise, nausea, anorexia, vomiting, myalgias and rash. Less than 1% of the cases are severe and result in neurological disease when the central nervous system is affected. People of advanced age, the very young, or those with immunosuppression, either medically induced, such as those taking immunosupressive drugs, or due to a pre-existing medical condition such as HIV infection, are most susceptible. The specific neurological diseases that may occur are West Nile encephalitis, which causes inflammation of the brain, West Nile meningitis, which causes inflammation of the meninges, which are the protective membranes that cover the brain and spinal cord, West Nile meningoencephalitis, which causes inflammation of the brain and also the meninges surrounding it, and West Nile poliomyelitis—spinal cord inflammation, which results in a syndrome similar to polio, which may cause acute flaccid paralysis.

WestNileGraphic_thumb

Currently, no vaccine against WNV infection is available. The best method to reduce the rates of WNV infection is mosquito control on the part of municipalities, businesses and individual citizens to reduce breeding populations of mosquitoes in public, commercial and private areas via various means including eliminating standing pools of water where mosquitoes breed, such as in old tires, buckets, unused swimming pools, etc. On an individual basis, the use of personal protective measures to avoid being bitten by an infected mosquito, via the use of mosquito repellent, window screens, avoiding areas where mosquitoes are more prone to congregate, such as near marshes, areas with heavy vegetation etc., and being more vigilant from dusk to dawn when mosquitoes are most active offers the best defense. In the event of being bitten by an infected mosquito, familiarity of the symptoms of WNV on the part of laypersons, physicians and allied health professions affords the best chance of receiving timely medical treatment, which may aid in reducing associated possible complications and also appropriate palliative care.

westnilevirus

The incubation period for WNV—the amount of time from infection to symptom onset—is typically from between 2 and 15 days. Headache can be a prominent symptom of WNV fever, meningitis, encephalitis, meningoencephalitis, and it may or may not be present in poliomyelytis-like syndrome. Thus, headache is not a useful indicator of neuroinvasive disease.(CDC)

west-nile-virus 2

  • West Nile virus encephalitis (WNE) is the most common neuroinvasive manifestation of WNND. WNE presents with similar symptoms to other viral encephalitis with fever, headaches, and altered mental status. A prominent finding in WNE is muscular weakness (30 to 50 percent of patients with encephalitis), often with lower motor neuron symptoms, flaccid paralysis, and hyporeflexia with no sensory abnormalities.
  • West Nile meningitis (WNM) usually involves fever, headache, and stiff neck. Pleocytosis, an increase of white blood cells in cerebrospinal fluid, is also present. Changes in consciousness are not usually seen and are mild when present.
  • West Nile meningoencephalitis is inflammation of both the brain (encephalitis) and meninges (meningitis).
  • West Nile poliomyelitis (WNP), an acute flaccid paralysis syndrome associated with WNV infection, is less common than WNM or WNE. This syndrome is generally characterized by the acute onset of asymmetric limb weakness or paralysis in the absence of sensory loss. Pain sometimes precedes the paralysis. The paralysis can occur in the absence of fever, headache, or other common symptoms associated with WNV infection. Involvement of respiratory muscles, leading to acute respiratory failure, can sometimes occur.
  • West-Nile reversible paralysis,. Like WNP, the weakness or paralysis is asymmetric. Reported cases have been noted to have an initial preservation of deep tendon reflexes, which is not expected for a pure anterior horn involvement.Disconnect of upper motor neuron influences on the anterior horn cells possibly by myelitis or glutamate excitotoxicity have been suggested as mechanisms.The prognosis for recovery is excellent.
  • Cutaneous manifestations specifically rashes, are not uncommon in WNV-infected patients; however, there is a paucity of detailed descriptions in case reports and there are few clinical images widely available. Punctate erythematous (?), macular, and papular eruptions, most pronounced on the extremities have been observed in WNV cases and in some cases histopathologic findings have shown a sparse superficial perivascular lymphocytic infiltrate, a manifestation commonly seen in viral exanthems (?). A literature review provides support that this punctate rash is a common cutaneous presentation of WNV infection. (Anderson RC et al.)

USA WEST NILE VIRUS

West Nile virus life cycle. After binding and uptake, the virion envelope fuses with cellular membranes, followed by uncoating of the nucleocapsid and release of the RNA genome into the cytoplasm. The viral genome serves as messenger RNA (mRNA) for translation of all viral proteins and as template during RNA replication. Copies are subsequently packaged within new virus particles that are transported in vesicles to the cell membrane.

WNV_life_cycle

WNV is one of the Japanese encephalitis antigenic serocomplex of viruses. Image reconstructions and cryoelectron microscopy reveal a 45–50 nm virion covered with a relatively smooth protein surface. This structure is similar to the dengue fever virus; both belong to the genus Flavivirus within the family Flaviviridae.

Em wnvirus j7908i.jpg

The genetic material of WNV is a positive-sense, single strand of RNA, which is between 11,000 and 12,000 nucleotides long; these genes encode seven nonstructural proteins and three structural proteins. The RNA strand is held within a nucleocapsid formed from 12-kDa protein blocks; the capsid is contained within a host-derived membrane altered by two viral glycoproteins. Phylogenetic tree of West Nile viruses based on sequencing of the envelope gene during complete genome sequencing of the virus

Phylogenetic_tree_of_West_Nile_viruses

Studies of phylogenetic lineages determined WNV emerged as a distinct virus around 1000 years ago. This initial virus developed into two distinct lineages, lineage 1 and its multiple profiles is the source of the epidemic transmission in Africa and throughout the world. Lineage 2 was considered an Africa zoonosis. However, in 2008, lineage 2, previously only seen in horses in sub-Saharan Africa and Madagascar, began to appear in horses in Europe, where the first known outbreak affected 18 animals in Hungary in 2008. Lineage 1 West Nile virus was detected in South Africa in 2010 in a mare and her aborted fetus; previously, only lineage 2 West Nile virus had been detected in horses and humans in South Africa. A 2007 fatal case in a killer whale in Texas broadened the known host range of West Nile virus to include cetaceans.

west_nile_virus

The United States virus was very closely related to a lineage 1 strain found in Israel in 1998. Since the first North American cases in 1999, the virus has been reported throughout the United States, Canada, Mexico, the Caribbean, and Central America. There have been human cases and equine cases, and many birds are infected. The Barbary macaque, Macaca sylvanus, was the first nonhuman primate to contract WNV.  Both the United States and Israeli strains are marked by high mortality rates in infected avian populations; the presence of dead birds—especially Corvidae—can be an early indicator of the arrival of the virus.

FightTheBite_en-300x292

The West Nile virus maintains itself in nature by cycling between mosquitoes and certain species of birds. A mosquito (the vector) bites an uninfected bird (the host), the virus amplifies within the bird, an uninfected mosquito bites the bird and is in turn infected. Other species such as humans and horses are incidental infections, as they are not the mosquitoes’ preferred blood meal source. The virus does not amplify within these species and they are known as dead-end hosts.

94263909-west-nile-virus

The West Nile virus (WNV) is transmitted through female mosquitoes, which are the prime vectors of the virus. Only females feed on blood, and different species have evolved to take a blood meal on preferred types of vertebrate hosts. The infected mosquito species vary according to geographical area; in the United States, Culex pipiens (Eastern United States), Culex tarsalis (Midwest and West), and Culex quinquefasciatus (Southeast) are the main sources.The various species that transmit the WNV prefer birds of the Passeriformes order, the largest order of birds. Within that order there is further selectivity with various mosquito species exhibiting preference for different species. In the United States WNV mosquito vectors have shown definitive preference for members of the Corvidae and Thrush family of birds. Amongst the preferred species within these families are the American crow, a corvid, and the American robin (Turdus migratorius), a thrush.

The proboscis of a female mosquito—here a Southern House Mosquito (Culex quinquefasciatus)—pierces the epidermis and dermis to allow it to feed on human blood from a capillary: this one is almost fully tumescent. The mosquito injects saliva, which contains an anesthetic, and an anticoagulant into the puncture wound; and in infected mosquitoes, the West Nile virus.

Print

The birds develop sufficient viral levels after being infected, to transmit the infection to other biting mosquitoes that in turn go on to infect other birds. In crows and robins, the infection is fatal in 4–5 days. This epizootic viral amplification cycle has been shown to peak 15–16 days before humans become ill. This may be due to the high mortality, and thus depletion of the preferred hosts, i.e., the specific bird species. The mosquitoes become less selective and begin feeding more readily on other animal types such as humans and horses which are considered incidental hosts.

1280px-Mosquito_Netting

In mammals, the virus does not multiply as readily (i.e., does not develop high viremia during infection), and mosquitoes biting infected mammals are not believed to ingest sufficient virus to become infected,making mammals so-called dead-end hosts.

West-Nile-Virus-rash-300x243

Direct human-to-human transmission initially was believed to be caused only by occupational exposure, or conjunctive exposure to infected blood. The US outbreak identified additional transmission methods through blood transfusion,organ transplant intrauterine exposure, and breast feeding. Since 2003, blood banks in the United States routinely screen for the virus among their donors. As a precautionary measure, the UK’s National Blood Service initially ran a test for this disease in donors who donate within 28 days of a visit to the United States, Canada or the northeastern provinces of Italy and the Scottish National Blood Transfusion Service asks prospective donors to wait 28 days after returning from North America or the northeastern provinces of Italy before donating.

West Nile Virus Replication

Recently, the potential for mosquito saliva to impact the course of WNV disease was demonstrated. Mosquitoes inoculate their saliva into the skin while obtaining blood. Mosquito saliva is a pharmacological cocktail of secreted molecules, principally proteins, that can affect vascular constriction, blood coagulation, platelet aggregation, inflammation, and immunity. It clearly alters the immune response in a manner that may be advantageous to a virus. Studies have shown it can specifically modulate the immune response during early virus infection, and mosquito feeding can exacerbate WNV infection, leading to higher viremia and more severe forms of disease.

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Vertical transmission, the transmission of a viral or bacterial disease from the female of the species to her offspring, has been observed in various West Nile virus studies, amongst different species of mosquitoes in both the laboratory and in nature.Mosquito progeny infected vertically in autumn, may potentially serve as a mechanism for WNV to overwinter and initiate enzootic horizontal transmission the following spring.


3dtextBreakingNews

CDC bombshell: Ebola spread to USA

INEVITABLE

Friday, August 08, 2014
by Mike Adams, the Health Ranger
Tags: CDC, Ebola pandemic, survival tips

NaturalNews-Logo_360x100

Ebola

(NaturalNews) The spread of Ebola to the USA is "inevitable," said the head of the US Centers for Disease Control and Prevention on Thursday. Tom Frieden made the statement in a House Subcommittee hearing, adding that he does not think there will be a "large Ebola outbreak" in the U.S. Does he think there will be small ones?

Ken Isaacs, vice president of program and government relations at the Christian aid group Samaritan’s Purse warned "the world is woefully ill-equipped to handle the spread of Ebola," reports Yahoo News. (1)
"It is clear that the disease is uncontained and it is out of control in West Africa," he told the hearing. "The international response to the disease has been a failure."
"If you read the Ministry of Health status reports coming out every day from Liberia, I don’t mean to be dramatic, but it has an atmosphere of ‘Apocalypse Now’ in it," said Isaacs, as reported by Breitbart.com. (5)
The spread of Ebola to the U.S. will likely happen due to international air travel, CDC head Frieden warned. Today’s Ebola outbreak is the largest ever recorded in history. Is the CDC perhaps preparing America for an announcement that Ebola is now being found in U.S. patients?
"The Centers for Disease Control and Prevention has issued its highest alert activation over the Ebola outbreak," reports CBS News. (4) "CDC Director Dr. Tom Frieden announced on Twitter Wednesday that their operations center has moved to a Level 1 response."

America is nowhere near prepared for an Ebola outbreak

Mac Slavo from SHTFplan.com just posted a really important story that I recommend you read. It’s entitled What You Need to Do to Survive Ebola BEFORE the Panic Starts.
As Slavo rightly points out, if there is even a single case of Ebola appearing on the streets of America, the masses will outright panic.
Michael Snyder from The Economic Collapse Blog (7) also makes a powerful point in this recommended article, where he says:
Yes, we may be able to provide "state of the art care" for a handful of people, but if thousands (or millions) of Americans get the virus you can forget about it. Our health industry is already stretched incredibly thin, and we simply do not have the resources to handle a tsunami of high risk Ebola patients. And of course conventional medicine does not have a cure for Ebola anyway.

Outbreak will immediately turn to panic

In truth, almost nobody is America is prepared for an Ebola outbreak — not the people, not the hospitals, not the grocery stores and certainly not the government.
Even a small, local Ebola outbreak would result in a mandatory lock down of people in their own homes. The government’s phrase for this is "shelter in place," and it was invoked at gunpoint during the Boston Marathon bombings.
The problem with all this is that the very minute the public gets word of Ebola spreading in America, people will launch into panic buying of everything you can imagine: gasoline and fuel, water, storable foods, chemical sanitizers, ammunition, firearms and so on. Think "zombie apocalypse" and you’ll get the idea.
Case in point: The announcement that the water supply in Toledo, Ohio was poisoned due to chemical agricultural runoff caused an immediate and total wipeout of water supplies from store shelves.
Hawaii just experienced the same thing, reports Intellihub: (2)
Due to the recent weather warnings, local stores have been mostly cleared out of bottled water and other essential supplies, such as batteries, in anticipation of the coming storms.
"Residents of Hawaii are cleaning out stores of supplies in anticipation of power outages and major flooding," says USA Today. (3)
Even worse, some residents are finding they are completely on their own, with other residents utterly unwilling to help them. As Mike Tsukamoto says in this USA Today video (3):
"There was a woman there [at the Costco store] who had a crutch, and she was asking people if they could help her, and no one would help and she was pretty upset. She told me that nobody cares to help anyone in times like this, and all they care about is getting stuff for themselves and clearing out."

Storms pass quickly; but pandemics keep spreading

Hurricanes quickly pass, but an Ebola outbreak might keep spreading and lingering for a very long time. What will the average unprepared American do after 3 days of lockdown? Five days? A month?
Most people could not survive more than a week or two without needing emergency supplies from the grocery store. It’s not difficult to imagine 911 call centers being flooded with desperate cries for food after just 3-5 days of lockdown.
An Ebola outbreak lockdown would also grind the local economy to a halt. No one showing up for work means no economic activity. It also makes you wonder who’s supposed to run the power plants, water treatment facilities, emergency services and law enforcement. Anyone who thinks under-paid cops are going to run around the streets trying to keep the peace when there’s an Ebola outbreak on the loose is living in a fantasy dreamland.
Ebola has the potential to cause widespread economic destruction beyond its medical casualties. That’s why it has been selected and preserved by numerous governments as a bioweapon. Some people are convinced, in fact, that the current pandemic in West Africa is a "trial run" for a larger release somewhere else, but I have to caution that’s mere conjecture and no evidence has yet surfaced to support the accusation.

Solutions for Americans and Canadians

So what you do to prepare for the Ebola spread into America that the CDC now calls "inevitable?"
First, you should substantially increase your personal preparedness in terms of supplies of food, water, emergency medicine, sanitizing liquids (like plain bleach), batteries for flashlights and so on. An Ebola outbreak may come to your neighborhood without warning, and the government may announce a mandatory quarantine without notice. You could suddenly find yourself stuck in your own home with no access to a grocery store for weeks.
Secondly, it’s probably a wise idea to stock up on natural anti-virals that might be beneficial against Ebola. Although I must caution you that there are no clinical trials of anything treating Ebola — not medications, not herbs, not anything — there are many natural substances with well-documented antiviral effects that have near-zero risk of any downside. Those include vitamin C powders, anti-viral herbs like elderberry, Traditional Chinese Medicine formulas and immune-boosting minerals like zinc and selenium.
Many people are right now saying colloidal silver might combat Ebola, although I personally haven’t investigated this issue and therefore can’t say whether silver might be effective as an internal defense against Ebola. Don’t count on the government to test this, of course: they’re only interested in high-profit drugs, not affordable natural solutions.
Avoiding immune-suppressing substances is a key strategy for strengthening your immune response to most viral infections. This means now is probably a good idea to stop smoking, stop using chemical fragrance laundry detergents, stop using cheap personal care products, stop taking medications that suppress immunity, and stop eating foods that contain immune-suppressing chemicals, additives and preservatives.
The stronger your immune system, the better your chance of survival if an Ebola outbreak happens near you. This is wisdom the CDC will never publicly encourage. The entire medical system is wholly opposed to the idea of people strengthening their own immune systems and therefore not needing "miracle" drugs or vaccines.
So if you want to be safe from Ebola, it’s entirely up to you. No government official or public health department is going to tell you the truth you need to hear: If you want to survive a serious outbreak, you’d better have weeks worth of water in your home, and months worth of food. You’d also better have some cash, sanitizers, flashlights, radios and the whole gamut of survival preparedness items that you can read about on other sites like The Organic Prepper.
Don’t wait until the government announces the coming pandemic. By then, it’s too late. If you ever find yourself in a crowd of people, lining up to get food, water or medicine, you’re already way behind the curve.
Sources for this article include:
(1) http://news.yahoo.com/ebolas-spread-us-inevi…
(2) http://www.intellihub.com/hawaii-bottled-wat…
(3) http://www.usatoday.com/story/weather/2014/0…
(4) http://atlanta.cbslocal.com/2014/08/07/cdc-i…
(5) http://www.breitbart.com/Big-Government/2014…
(6) http://www.naturalnews.com/046314_toledo_wat…
(7) http://theeconomiccollapseblog.com/archives/…

3dtextBreakingNews[4]

WHO expects ‘many thousands of new

cases’ of Ebola within three weeks

NaturalNews-Logo_360x100

 

(NaturalNews) The World Health Organization is sending a dire warning out to the world. There have been nearly 2,300 confirmed deaths from the Ebola pandemic. In Liberia, people are being instructed to shelter in place, with martial law locking down entire villages. Food shortages and strikes have ravaged the region. Since last December, nearly 80 health workers have been killed by the virus. Ebola is spreading so fast in Liberia that the WHO is now warning the United Nations that there will be many thousands of new cases coming over the next three weeks.

Ebola

At the beginning of September, WHO stated publicly, "Transmission of the Ebola virus in Liberia is already intense and the number of new cases is increasing exponentially."
WHO projects that the "number of new cases is moving far faster than the capacity to manage them in Ebola-specific treatment centres."
They reiterated, "Many thousands of new cases are expected in Liberia over the coming three weeks."

WHO is basically saying that the viral pandemic could double or triple in scope throughout September. WHO is urging humanity to prepare and is calling on aiding nations to ramp up their efforts to stop Ebola. WHO has stated that the affected regions need three to four times the current aid to combat Ebola, citing shortages of something as basic as emergency beds. WHO remarked that conventional Ebola control measures "are not having an adequate impact," reporting that "a hot source of potential virus transmission" is something as simple as motorbikes and taxis in West Africa.

Over half of Ebola cases ending in death

The death rate from Ebola is shocking, taking out at least one person for every two affected. As it travels, it evolves. In Liberia alone, 1,871 cases have been documented, and from those, 1,089 have resulted in death. Throughout Liberia, Guinea and Sierra Leone, a total of 4,269 cases have been confirmed and over half (2,288 people) have become casualties.
With a 21-day incubation period, the Ebola virus doesn’t illicit any symptoms in infected people for up to three weeks. This means that people infected in late August may not show symptoms until mid-September. This makes Ebola spread even faster and more sneakily, since people don’t realize that they’re passing the virus on until it’s too late.

US CDC worried

US CDC Director Tom Frieden has come out to the media stating that the "window is closing" to halt a GLOBAL pandemic. The CDC is basically hinting that the US may be an easy target for Ebola outbreaks.
"This is different [from] every other Ebola situation we’ve ever had," stated Frieden. "It’s spreading widely, throughout entire countries, through multiple countries, in cities and very fast."

How are you preparing?

A prominent group working to contain Ebola in West Africa, Doctors Without Borders, is also warning the world about Ebola’s potential global spread. "Six months into the worst Ebola epidemic in history, the world is losing the battle to contain it," said Joanne Liu, president of Doctors Without Borders.
"Ebola treatment centers are reduced to places where people go to die alone, where little more than palliative care is offered."
As Ebola abounds, could you imagine what such an epidemic would look like in a major city anywhere in the world? In a globally connected world, with intercontinental travel and high-density populations, loaded with immune-system-suppressed populations, something like Ebola could turn cities into scenes from an apocalyptic movie.
To avoid that dark scenario, you can optimistically prepare by stocking up on antiviral herbal extracts, teas and ground herbal powders like eleutherococcus root.

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pandemic

Pandemic Preparedness Course Episodes

Pandemic Preparedness FREE Online How-To Course

By the Health Ranger, Mike Adams

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"What is not getting said publicly, despite briefings and discussions in the inner circles of the world’s public health agencies, is that we are in totally uncharted waters and that Mother Nature is the only force in charge of the crisis at this time."

Michael T. Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, printed in the New York Times on Sep. 11, 2014

"This is not an African disease. This is a virus that is a threat to all humanity."

Gayle Smith, senior director at the National Security Council

"The level of outbreak is beyond anything we’ve seen – or even imagined."

Dr. Tom Frieden, the Director of the Centers for Disease Control and Prevention

"Emergency rooms are closed, many hospital wards are as well leaving people who are sick with heart disease, trauma, pregnancy complications, pneumonia, malaria and all the everyday health emergencies with nowhere to go."

Dr. Richard Besser, health and medical editor for ABC News

"This is different than every other Ebola situation we’ve ever had. It’s spreading widely, throughout entire countries, through multiple countries, in cities and very fast."

Vincent Martin, head of an FAO unit in Dakar, the UN Food and Agriculture Organization

"The current Ebola virus’s hyper-evolution is unprecedented; there has been more human-to-human transmission in the past four months than most likely occurred in the last 500 to 1,000 years."

Michael T. Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, printed in the New York Times on Sep. 11, 2014

"It is impossible to keep up with the sheer number of infected people pouring into facilities. In Sierra Leone, infectious bodies are rotting in the streets."

Dr. Joanne Liu, the international president of Doctors Without Borders

"Staff at the outbreak sites see evidence that the numbers of reported cases and deaths vastly underestimate the magnitude of the outbreak."

Official WHO statement

"In 2012, a team of Canadian researchers proved that Ebola Zaire, the same virus that is causing the West Africa outbreak, could be transmitted by the respiratory route from pigs to monkeys, both of whose lungs are very similar to those of humans."

Michael T. Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, printed in the New York Times on Sep. 11, 2014

"Liberia, population four million, has fewer than 250 doctors left in the entire country." (Because they’ve all been killed by Ebola or fled the country.)

Sheri Fink, published in the New York Times on Aug. 16, 2014

"Liberia is facing a serious threat to its national existence. It is now spreading like wild fire, devouring everything in its path. The already weak health infrastructure of the country has been overwhelmed… The deadly Ebola virus has caused a disruption of the normal functioning of our State."

Liberian Minister of National Defense Brownie Samukai, quoted in the Daily Mail

Pandemic Preparedness Course Episodes

Episode: 1

http://www.biodefense.com/Pandemic-Preparedness-Episode-01.html

Episode: 2

http://www.biodefense.com/Pandemic-Preparedness-Episode-02.html

Episode: 3

http://www.biodefense.com/Pandemic-Preparedness-Episode-03.html

Episode: 4

http://www.biodefense.com/Pandemic-Preparedness-Episode-04.html

Episode: 5

http://www.biodefense.com/Pandemic-Preparedness-Episode-05.html

Episode: 6

Coming Episodes will be added here

 

 

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Why does the CDC own a patent on Ebola

‘Invention?’

Sunday, August 03, 2014
by Mike Adams, the Health Ranger
Tags: Ebola patent, vaccines, profit motive

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NaturalNews) The U.S. Centers for Disease Control owns a patent on a particular strain of Ebola known as "EboBun." It’s patent No. CA2741523A1 and it was awarded in 2010. You can view it here. (Thanks to Natural News readers who found this and brought it to our attention.)
Patent applicants are clearly described on the patent as including:
The Government Of The United States Of America As Represented By The Secretary, Department Of Health & Human Services, Center For Disease Control.
The patent summary says, "The invention provides the isolated human Ebola (hEbola) viruses denoted as Bundibugyo (EboBun) deposited with the Centers for Disease Control and Prevention ("CDC"; Atlanta, Georgia, United States of America) on November 26, 2007 and accorded an accession number 200706291."

Ebola

It goes on to state, "The present invention is based upon the isolation and identification of a new human Ebola virus species, EboBun. EboBun was isolated from the patients suffering from hemorrhagic fever in a recent outbreak in Uganda."
It’s worth noting, by the way, that EboBun is not the same variant currently believed to be circulating in West Africa. Clearly, the CDC needs to expand its patent portfolio to include more strains, and that may very well be why American Ebola victims have been brought to the United States in the first place. Read more below and decide for yourself…

Harvesting Ebola from victims to file patents

From the patent description on the EboBun virus, we know that the U.S. government:
1) Extracts Ebola viruses from patients.
2) Claims to have "invented" that virus.
3) Files for monopoly patent protection on the virus.
To understand why this is happening, you have to first understand what a patent really is and why it exists. A patent is a government-enforced monopoly that is exclusively granted to persons or organizations. It allows that person or organization to exclusively profit from the "invention" or deny others the ability to exploit the invention for their own profit.
It brings up the obvious question here: Why would the U.S. government claim to have "invented" Ebola and then claim an exclusively monopoly over its ownership?

U.S. Government claims exclusive ownership over its "invention" of Ebola

The "SUMMARY OF THE INVENTION" section of the patent document also clearly claims that the U.S. government is claiming "ownership" over all Ebola viruses that share as little as 70% similarity with the Ebola it "invented":
…invention relates to the isolated EboBun virus that morphologically and phylogenetically relates to known members filoviridae… In another aspect, the invention provides an isolated hEbola EboBun virus comprising a nucleic acid molecule comprising a nucleotide sequence selected from the group consisting of: a) a nucleotide sequence set forth in SEQ ID NO: 1; b) a nucleotide sequence that hybridizes to the sequence set forth in SEQ ID NO: 1 under stringent conditions; and c) a nucleotide sequence that has at least 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, or 99% identity to the SEQ ID NO:
1. In another aspect, the invention provides the complete genomic sequence of the hEbola virus EboBun.

Ebola vaccines and propagation

The CDC patent goes on to explain it specifically claims patent protection on a method for propagating the Ebola virus in host cells as well as treating infected hosts with vaccines:
In another aspect, the invention provides a method for propagating the hEbola virus in host cells comprising infecting the host cells with the inventive isolated hEbola virus described above, culturing the host cells to allow the virus to multiply, and harvesting the resulting virions.
In another aspect, the invention provides vaccine preparations, comprising the inventive hEbola virus, including recombinant and chimeric forms of the virus, nucleic acid molecules comprised by the virus, or protein subunits of the virus. The invention also provides a vaccine formulation comprising a therapeutically or prophylactically effective amount of the inventive hEbola virus described above, and a pharmaceutically acceptable carrier.

No medical reason to bring Ebola to the United States

This patent may help explain why Ebola victims are being transported to the United States and put under the medical authority of the CDC. These patients are carrying valuable intellectual property assets in the form of Ebola variants, and the Centers for Disease Control clearly desires to expand its patent portfolio by harvesting, studying and potentially patenting new strains or variants.
Dr. Bob Arnot, an infectious disease specialist who spent time on the ground in developing nations saving lives, recently told Judge Jeanine, "There is no medical reason to bring them here, especially when you see how well Dr. Bradley was." (2)
There is, however, an entirely different reason to bring Ebola patients to America: so they can be exploited for medical experiments, military bioweapons harvesting or intellectual property claims.
Surely, medical authorities at Emory University and the CDC are working hard to save the lives of the two patients who have been transported to the U.S. But they are also pursuing something else at the same time: an agenda of isolating, identifying and patenting infectious disease agents for reasons that we can only imagine.

Only hoping to save lives?

On one hand, it’s worth pointing out that the CDC’s patent on Ebola is at least partially focused on methods for screening for Ebola and treating Ebola victims with drugs or vaccines. This seems like a worthwhile precaution against an infectious disease that clearly threatens lives.
On the other hand, why the patent? Patenting Ebola seems as odd as trying to patent cancer or diabetes. Why would a government organization claim to have "invented" this infectious disease and then claim a monopoly over its exploitation for commercial use?
Does the CDC hope to collect a royalty on Ebola vaccines? Is it looking to "invent" more variants and patent those too?
Make no mistake that billions of dollars in profits are at stake in all this. Shares of Tekmira surged over 11% last Friday as pressure was placed on the FDA to fast-track Ebola vaccine trials the company has set up. "Health campaigners have started a petition which has already been signed by approximately 15,500 people on change.org pressurizing FDA to approve the drug in the minimum possible time frame," reports BidnessEtc.com. (3)

Carefully scripted medical theater

With this, we start to see the structure of the elaborate medical theater coming together: A global pandemic panic, a government patent, the importation of Ebola into a major U.S. city, an experimental vaccine, the rise of a little-known pharmaceutical company and a public outcry for the FDA to fast-track the vaccine.
If Act II stays on course, this medical theater might someday involve a "laboratory accident" in a U.S. lab, the "escape" of Ebola into the population, and a mandatory nationwide Ebola vaccination campaign that enriches Tekmira and its investors while positioning the CDC with its virus patents as the "savior of the American people."
Yes, we’ve heard this music before, but the last time around it was called Swine Flu.
The formula is always the same: create alarm, bring a vaccine to market, then scare governments into buying billions of dollars worth of vaccines they don’t need.
Watch the episode with Judge Jeanine here

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Ebola

Ebola outbreak may already be uncontrollable; Monsanto invests in Ebola treatment drug company as pandemic spreads

Thursday, July 31, 2014
by Mike Adams, the Health Ranger
Tags: Ebola outbreak, drug treatments, Monsanto

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(NaturalNews) A global outbreak of deadly Ebola is underway and has crossed national borders. One infected victim of the horrifying disease flew on international flights, vomiting on board and exposing hundreds of people to the deadly virus which can be transmitted through airborne particles. Ebola has an 8-10 day incubation period, meaning thousands of people could be carrying it right now and spreading it across the cities of the world without even knowing it.
Passengers in Hong Kong and the UK have already shown symptoms of the disease and are being tested, reports USA Today. (2) The Peace Corps has evacuated its volunteers from the region after two were exposed to Ebola. (3)
"Expert claims panic over death of U.S. man in Nigeria is ‘justified’" reports the Daily Mail. (1) "He warned the spread of Ebola could become a global pandemic."

Ebola is the closest thing to real-life zombie infections

With apologies to those victims who have suffered the horrible fate of Ebola, I’m offering a medically accurate description here as a warning to everybody else. Believe me when I say you do NOT want to contract Ebola. Warning: Graphic language below.
Ebola is a gruesome disease that causes cells in the body to self-destruct, resulting in massive internal and external bleeding. In its late stages, Ebola can cause the victim to experience convulsions, vomiting and bleeding from the eyes and ears while convulsing, flinging blood all over the room and anyone standing nearby, thereby infecting those people as well. This gruesome ending is the reason Ebola spreads so effectively. The virus "weaponizes" the blood, then causes the victim to fling it around on everyone else almost like you might see depicted in some horror zombie flick.
"Hemorrhaging symptoms begin 4 – 5 days after onset, which includes hemorrhagic conjunctivitis, pharyngitis, bleeding gums, oral/lip ulceration, hematemesis, melena, hematuria, epistaxis, and vaginal bleeding," reports the Pathogen Safety Data Sheet from the Public Health Agency of Canada. (8) That same publication also explains, "There are no known antiviral treatments available for human infections."
Read that again: There are NO KNOWN TREATMENTS for human infections.
Sierra Leone’s top Ebola doctor tragically died yesterday from an Ebola infection. Although well trained in infectious disease, even he underestimated the ability of this insidious killer to leap from person to person. Around half of those infected with Ebola die, making it one of the most fatal diseases known to modern medical science. And yet medical staff around the world still aren’t exercising sufficient precautions when interfacing with infected patients.

Monsanto and Dept. of Defense help fund pharma company that could earn billions from Ebola treatment

There are some experimental drugs under development by pharma companies that show some promise, but nothing is commercialized yet. (9)
One fascinating development worth investigating further is that TEKMIRA Pharmaceuticals, a company working on an anti-Ebola drug, just received a $1.5 million cash infusion from none other than Monsanto. Click here to read the press release, which states "Tekmira Pharmaceuticals Corporation is a biopharmaceutical company focused on advancing novel RNAi therapeutics and providing its leading lipid nanoparticle (LNP) delivery technology to pharmaceutical partners."
The money from Monsanto is reportedly related to the company’s developed of RNAi technology used in agriculture. The deal is valued at up to $86.2 million, according to the WSJ. (11)
Another press release about Tekmira reveals a $140 million contract with the U.S. military for Ebola treatment drugs:
TKM-Ebola, an anti-Ebola virus RNAi therapeutic, is being developed under a $140 million contract with the U.S. Department of Defense’s Medical Countermeasure Systems BioDefense Therapeutics (MCS-BDTX) Joint Product Management Office.
Additional Tekmira partnership are listed at this Tekmira web page.
Not to invoke any charges of collusion or conspiracy here, but a whole lot of people are going to have raised eyebrows over the fact that Monsanto just happened to be giving a cash infusion to a key pharma company working on an Ebola cure right in the middle of a highly-publicized Ebola outbreak which could create huge market demand for the drugs. The fact that the U.S. Department of Defense is also involved with all this is going to have alternative news websites digging hard for additional links.
Sadly, the history of medicine reveals that drug companies, the CDC and the WHO have repeatedly played up the severity of disease outbreaks in order to promote sales of treatment drugs. I’m not saying this outbreak isn’t very real and very alarming, of course. It is real. But we always have to be suspicious when windfalls profits just happen to line up for certain corporations following global outbreaks of infectious disease. Vaccine manufacturers, remember, made billions off the false swine flu scare, and tens of millions of dollars in stockpiled swine flu vaccines later had to be destroyed by the governments that panicked and purchased them.

Has air travel doomed humanity to a pandemic outbreak?

Air travel creates the "perfect storm" for Ebola to devastate humanity. It all starts with these irrefutable facts about air travel:
1) All passengers are confined to the same enclosed space.
2) All passengers are breathing THE SAME AIR.
3) Ebola can become airborne via very small particles in the air, and just a single Ebola virus riding on a dust particle is sufficient to infect a human being (see below).
4) Following the flight, infected passengers then intermingle with thousands of other people at the airport, each doing to a different unique destination somewhere else across the country or around the world.
5) The speed of air travel vastly out-paces the speed of governments being able to deploy infectious disease prevention teams.
A global pandemic wipeout from Ebola, in other words, could originate from a single person on a single international flight. And it could circle the globe in less than 48 hours.

Just one organism is sufficient to infect a new host

Just how much Ebola virus does it take to infect someone? Alarmingly, as the Public Health Agency of Canada explains, "1 – 10 aerosolized organisms are sufficient to cause infection in humans." (8)
Read that again: it takes just ONE aerosolized organism (a microscopic virus riding on a dust particle) to cause a full-blown infection in humans. This is why one man vomiting on an international flight can infect dozens or hundreds of other people all at once.
Some experts fear that has already happened. As the Daily Mail reports: (1)
Nigerian health officials are in the process of trying to trace 30,000 people, believed to be at risk of contracting the highly-infectious virus, following the death of Patrick Sawyer in Lagos. It comes as Nigerian actor Jim Lyke sparked outrage, posting a picture of himself wearing an Ebola mask while sitting in a first class airport lounge as he fled Liberia.
Dave Hodges of The Commonsense Show reports: (7)
A desperate search is on to find the hundreds of passengers who flew on the same jets as Sawyer. A total of 59 passengers and crew are estimated to have come into contact with Sawyer and effort is being made to track each individual down. There is an inherent problem with this "track down". Presumably, some of the passengers connected to other flights, which known to be the case. Let’s just say for the sake of argument that only 20 people, a low estimate given the nature of the airports that Sawyer was traveling in, were connecting to other flights, the spread of the virus would quickly expand beyond any possibility of containment because in less than a half a day, nearly a half a million people would be potentially exposed. Within a matter of a couple of hours, Sawyer’s infected fellow travelers would each have made contact with 200 other passengers and crew. Hours later, these flights would land and these people would go home to the friends, families and coworkers across several continents.
CBS News adds: (4)
"Witnesses say Sawyer, a 40-year-old Liberian Finance Ministry employee en route to a conference in Nigeria, was vomiting and had diarrhea aboard at least one of his flights with some 50 other passengers aboard. Ebola can be contracted from traces of feces or vomit, experts say."

American family members quarantined in Texas

A U.S. doctor named Dr. Kent Brantly has reportedly contracted Ebola. "Brantly and the couple’s 3- and 5-year-old children left Liberia for a scheduled visit to the United States on July 20. Days later, Kent Brantly quarantined himself in the isolation ward of a hospital where he had been treating Ebola patients after testing positive for the disease," reports CBS News. (3)
That same story goes on to say, "Amber Brantly and the children are in Abilene, Texas, under a 21-day fever watch," which is essentially a quarantine. This means the necessary quarantine of American citizens on U.S. soil has already begun.
Nobody is yet talking about what all this might mean if a large U.S. city shows an outbreak of infections. Will the federal government use the military to quarantine an entire city? Ultimately, it must! And make no mistake: this possibility is already written up and on the books for national emergencies. One declaration of martial law is all that’s required to seal off an entire U.S. city at gunpoint.
Another CBS News article reports: (4)
"If it gets into a big city, that’s everybody’s worse nightmare," said Dr. Tim Geisbert, a professor of microbiology and immunology at University of Texas Medical Branch, in an interview with CBS News. "It gets harder to control then. How do you quarantine a big city?"
The answer, by the way, is by deploying America’s armed forces against its own citizens in a domestic national emergency scenario. Everybody in the federal government already knows that. It’s only the mainstream media that pretends such plans don’t already exist.

Ebola detection kits deployed to all 50 U.S. states

Although the federal government’s official reaction to all this is low-key, in truth the U.S. government is rapidly preparing for the possibility of an Ebola outbreak reaching the continental USA.
As reported above, the U.S. Department of Defense already has a $140 million contract awarded to Tekmira for its Ebola treatment drugs.
Additionally, as SHTFplan.com reports: (5)
The Department of Defense informed Congress that it has deployed biological diagnostic systems to National Guard support teams in all 50 states, according to a report published by the Committee on Armed Services. Some 340 Joint Biological Agent Identification and Diagnostic System (JBAIDS) units have thus far been given to emergency response personnel. The systems are "rapid, reliable, and [provide] simultaneous identification of specific biological agents and pathogens."
On one hand, we might all applaud the government’s preparedness actions in all this. It’s smart to have diagnostic systems deployed nationwide, of course. But it begs the question: When was the government planning on telling the public about all this? Probably never. There’s no sense in causing a panic when half the people won’t survive an outbreak anyway, they figure.

The perfect bioweapon against humanity?

I also need to make you urgently aware that Ebola is a "perfect" bioweapon. Because of its ability to survive storage and still function many days, weeks or years later, it could be very easily harvested from infected victims and then preserved using nothing more than a common food dehydrator.
As the Public Health Agency of Canada explains: (8)
The virus can survive in liquid or dried material for a number of days (23). Infectivity is found to be stable at room temperature or at 4 (C) for several days, and indefinitely stable at -70 C.
To translate this into laymen’s terms, this means the Ebola virus can be:
• Stored in a liquid vial and easily smuggled across international borders.
• Dehydrated and stored in a dried state, then easily smuggled.
• Frozen at very low temperatures where it remains viable indefinitely.
Once dried, contained or frozen, Ebola pathogens can be smuggled into target countries with ridiculous ease. In the United States, for example, people can literally walk right through our Southern open borders with zero security whatsoever.

Open borders is an open invitation for bioweapons terrorism

Once inside the target country, a bioweapons terrorist could then easily infect people in public transit hubs such as subway stations, airports, bus stations and so on. Unfortunately, spraying a few Ebola particles into people’s faces is ridiculously easy, especially if the terrorist carrying out the activities decides he is on a suicide mission and doesn’t care about self-exposure.
An outbreak of Ebola in a major U.S. city would quite literally threaten the public health of the entire nation. That’s why an "open borders" policy in the middle of a global Ebola outbreak is unconscionable from the point of view of public health. CDC officials must be tearing their hair out over this issue.
Think about it: America is a country where public health officials freak out and go crazy when two children acquire whooping cough in a public school in Maryland. But when tens of thousands of people are streaming into the country, unbounded, with near-zero medical scrutiny in the middle of an international Ebola outbreak, federal officials do almost nothing at all. If there is an Ebola outbreak in the U.S., this is most likely how it will arrive.

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Number of Ebola cases is ‘increasing

exponentially,’ World Health Organization

“WARNS”

Tuesday, September 09, 2014 by: Ethan A. Huff, staff writer
Tags: Ebola, virus transmission, World Health Organization

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(NaturalNews) The Ebola crisis has taken a major turn for the worse as the World Health Organization (WHO) announces that the number of infected individuals is now "increasing exponentially." The uptick is particularly concerning in Liberia, where the international agency says the worst is yet to come.
Among the 4,269 known cases of Ebola in West Africa, nearly 2,300, a little over half, have resulted in death. And roughly half of these deaths have occurred in Liberia, according to the United Nations, with the rest reportedly hailing from nearby Sierra Leone, Guinea and Nigeria.
In a recent announcement, WHO warned that the numbers appear to show an exponential increase in infections across West Africa, and that things will get worse before getting better. Underscoring the unusual spread of the disease, experts say Ebola is particularly problematic in the larger cities, and especially in those where public health facilities are lacking.
But the situation is most extreme in Liberia, where entire communities are facing rapid infection due to poor containment measures and a lack of medical personnel. According to data compiled by WHO, some 152 healthcare workers in Liberia are known to have contracted Ebola, and 79 of them have already died.
Liberia was already lacking in adequate medical personnel prior to the outbreak, with only about one doctor available for every 100,000 people. In a country of 4.4 million people, this is a major problem, especially as the death toll mounts and infected individuals have nowhere to turn for treatment and quarantine.
"Transmission of the Ebola virus in Liberia is already intense and the number of new cases is increasing exponentially," reads a harrowing statement recently issued by WHO.
"In Monrovia, taxis filled with entire families, of whom some members are thought to be infected with the Ebola virus, crisscross the city, searching for a treatment bed. There are none. As WHO staff in Liberia confirm, no free beds for Ebola treatment exist anywhere in the country."

Nutrition, not ZMapp, likely cured American doctors infected with Ebola

WHO officials are aiming to completely stop the spread of Ebola in both Senegal and Nigeria, where infection rates are still relatively small. But the agency is urging aid organizations both locally and internationally to take further action in Liberia.
In its announcement, WHO warned that aid groups in Liberia will "need to prepare to scale up their current efforts by three- to four-fold" in order to control the spread of Ebola. At this point, the return of infected individuals to their respective villages threatens to spark "flare-ups" that, in the immediate future, will likely lead to massive spikes of infection.
As far as the three American healthcare workers who were returned to the States for treatment, the two who received experimental ZMapp are reportedly recovering. But experts say ZMapp may not have been responsible for this, as both patients received high-dose, intravenous nutrition and carefully monitored fluid-replacement therapy.
These interventions, admit workers at Emory University Hospital in Atlanta where the couple was treated, are more than likely the real cure, one that will be difficult to administer in West Africa, especially as the already inadequate infrastructure there is pressed beyond its limits.
"The Ebola outbreak has just driven home the inadequacy that’s there," stated Dr. Barbara Knust, team leader for the U.S. Centers for Disease Control and Prevention’s (CDC) Ebola response unit, before a recent meeting of the American Society for Microbiology.

3dtextBreakingNews[6]

Ebola

Liberia runs out of hospital beds as Ebola

cases increase exponentially,

overwhelming healthcare system

Friday, September 12, 2014 by: David Gutierrez, staff writer
Tags: Ebola, hospital beds, Liberia

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(NaturalNews) As West Africa’s Ebola epidemic continues to worsen, local healthcare systems are being completely overwhelmed. In Liberia, the World Health Organization (WHO) reports, there is not a single bed available for any more patients.
The WHO reports that more than 4,200 cases of Ebola have been confirmed in West Africa, leading to at least 2,296 deaths. Troublingly, 49 percent of all cases and 47 percent of all deaths had occurred within the 21-day period before September 6, indicating that the spread of the disease may be accelerating.
"As soon as a new Ebola treatment facility is opened, it immediately fills to overflowing with patients, pointing to a large but previously invisible caseload," the WHO said in a statement. "Many thousands of new cases are expected in Liberia over the coming three weeks."

Shortage worsens disease transmission

The complete absence of treatment facilities has led many Liberians to pack into taxis and ride around in search of some place that will accept their sick relatives. When no such facility can be found, the WHO reports, many families simply return to their homes. This places the entire family and anyone else they come into contact with at an increased risk of contracting Ebola.
Disturbingly, the bed shortage has also therefore turned taxis themselves into a sources of potential Ebola transmission, as the vehicles are not being disinfected after use by sick passengers.
Yet the bed shortage is unlikely to alleviate any time soon. One report counts the number of beds at Ebola treatment facilities at just 570 in Liberia, Guinea and Sierra Leone combined.
In Sierra Leone, the growing crisis moved the government to announce a three-day curfew for September 19-21. Other than for business deemed essential, no pedestrians or vehicles will be allowed on any street in the country for the entire period, in order to "ensure that the dreaded disease is checked," the government said.
"Making a sacrifice for three days and living for another 20 or more years is better than not making the sacrifice and you die within 21 days," said President Ernest Bai Koroma.
During the curfew, 20,000 volunteers will be dispatched to visit every single home in the country of 6 million, looking for Ebola patients.
"Likely Ebola cases will be identified or dead bodies will be referred to contact tracing, referral or burial teams," said Steven Ngaoja, head of Sierra Leone’s Ebola Emergency Operations Centre,

U.S. no better prepared?

The rapid spread of the disease has overwhelmed not just local health care systems, but also the WHO’s disease-monitoring programs. According to Sylvie Briand, director of the WHO Department of Pandemic and Epidemic Diseases, authorities know that official estimates of Ebola cases and fatalities are far too low.
"We know that the numbers are under-estimated," Briand said. "We are currently working to estimate the under-estimation."
"It’s a war against this virus," Briand said. "It’s a very difficult war. What we try now is to win some battles at least in some places."
If Ebola were to spread globally, even the healthcare systems in wealthier countries could be overwhelmed. According to a report released by the U.S. Office of the Inspector General on September 8, the U.S. Department of Homeland Security (DHS) is "ill-prepared" for a public health crisis even on the scale of the 2009 influenza pandemic, let alone a global Ebola outbreak.
In 2006, Congress allocated $47 million to the DHS to prepared for a national medical crisis. The September 8 report found that millions of dollars of this money were spent on equipment or supplies that are now unnecessary, worthless or missing. For example, investigators found more than 4,000 bottles of hand sanitizer in a DHS storage facility that had been expired for as long as four years.

3dtextBreakingNews[6]

Ebola

Animals could spread Ebola to 15 more

African countries, warn Oxford scientists

Thursday, September 11, 2014 by: Jonathan Benson, staff writer
Tags: Ebola, Africa, animal transmission

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(NaturalNews) At least 15 African countries, primarily in the central regions of the continent, are at high risk of Ebola being spread by animals, in addition to the previous seven countries that have reported cases of zoonotic transmission of the disease, according to new research out of the UK. Predictive models created by researchers from Oxford University suggest that the current Ebola outbreak will eventually be spread eastward by wildlife, affecting countries like Cameroon, Equatorial Guinea and Gabon in the coming months.
Since the believed-to-be strain of Ebola currently spreading originated out of Central Africa, it remains a mystery how it ended up sparking the worst outbreak in history on Africa’s western coast. But experts say it will eventually return to its homeland, where tens of thousands of people face infection and possible death.
According to the research, which was published in the journal eLife, fruit bats, the primary vector for the disease, will likely spread the disease to humans living in Africa’s central region. It is believed that multiple species of fruit bats are capable of carrying the disease, some without symptoms, and that these creatures will infect other bats and animals such as monkeys and rodents.
Since many people in Central Africa eat bats and monkeys — these and other creatures are commonly referred to as "bush meat" — the likelihood that infected animals will eventually infect humans is strong. This is especially true among people groups that eat the meat of these creatures raw rather than cooked, drastically increasing the likelihood of infection.
"Our map shows the likely ‘reservoir’ of Ebola virus in animal populations, and this is larger than has been previously appreciated," stated Nick Golding, a researcher at Oxford’s Department of Zoology, and author of the study. "This does not mean that transmission to humans is inevitable in these areas; only that all the environmental and epidemiological conditions suitable for an outbreak occur there."

Current Ebola outbreak spreading most deadly known strain

According to experts, there are five known strains of Ebola — Zaire, Sudan, Tai Forest, Bundibugyo, and Reston. Zaire, the strain currently believed to be spreading throughout West Africa, is the most virulent, while the others are less dramatic and much easier to contain. Reston is the only strain that, according to the World Health Organization (WHO), has never sparked an outbreak.
Because of their sheer proximity to one another, the following countries have the highest risk of seeing Zaire spread by animals for the first time within the coming months: Nigeria, Cameroon, Central African Republic, Ghana, Liberia, Sierra Leone, Angola, Togo, United Republic of Tanzania, Ethiopia, Mozambique, Burundi, Equatorial Guinea, Madagascar and Malawi.
You can view a "heat" map of the most likely areas where Ebola will spread next here:
WashingtonPost.com.
As of this writing, the WHO has confirmed that the current Ebola outbreak has already killed 2,288 people. Half of them, says the agency, died just within the last three weeks, indicating that the spread of the disease is picking up at an exponential rate. Suspected new cases of Ebola are also starting to emerge in both Europe and North America, suggesting a global pandemic threat.
"The number of new cases [of Ebola] is moving far faster than the capacity to manage them," stated the WHO in a recent news release.

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About the author:Mike Adams (aka the "Health Ranger") is the founding editor of NaturalNews.com, the internet’s No. 1 natural health news website, now reaching 7 million unique readers a month.
In late 2013, Adams launched the Natural News Forensic Food Lab, where he conducts atomic spectroscopy research into food contaminants using high-end ICP-MS instrumentation. With this research, Adams has made numerous food safety breakthroughs such as revealing rice protein products imported from Asia to be contaminated with toxic heavy metals like lead, cadmium and tungsten. Adams was the first food science researcher to document high levels of tungsten in superfoods. He also discovered over 11 ppm lead in imported mangosteen powder, and led an industry-wide voluntary agreement to limit heavy metals in rice protein products to low levels by July 1, 2015.
In addition to his lab work, Adams is also the (non-paid) executive director of the non-profit Consumer Wellness Center (CWC), an organization that redirects 100% of its donations receipts to grant programs that teach children and women how to grow their own food or vastly improve their nutrition. Click here to see some of the CWC success stories.
With a background in science and software technology, Adams is the original founder of the email newsletter technology company known as Arial Software. Using his technical experience combined with his love for natural health, Adams developed and deployed the content management system currently driving NaturalNews.com. He also engineered the high-level statistical algorithms that power SCIENCE.naturalnews.com, a massive research resource now featuring over 10 million scientific studies.
Adams is well known for his incredibly popular consumer activism video blowing the lid on fake blueberries used throughout the food supply. He has also exposed "strange fibers" found in Chicken McNuggets, fake academic credentials of so-called health "gurus," dangerous "detox" products imported as battery acid and sold for oral consumption, fake acai berry scams, the California raw milk raids, the vaccine research fraud revealed by industry whistleblowers and many other topics.
Adams has also helped defend the rights of home gardeners and protect the medical freedom rights of parents. Adams is widely recognized to have made a remarkable global impact on issues like GMOs, vaccines, nutrition therapies, human consciousness.
In addition to his activism, Adams is an accomplished musician who has released ten popular songs covering a variety of activism topics.
Click here to read a more detailed bio on Mike Adams, the Health Ranger, at HealthRanger.com.