01/26 | 7th death in China from H5N1, a 29-yo woman

Thursday, January 26, 2006

A woman in China has become the seventh person in the country to die from the H5N1 strain of the bird flu virus.
The 29-year-old woman, surnamed Cao, had been in a critical condition in hospital in Chengdu, south-west China.

The World Health Organization said the woman, who tested positive for the H5N1 virus on 17 January, ran a shop in a farm goods market.

China is seen as a potential flashpoint for a human pandemic, because it has the world's largest poultry population.

http://www.deepika.com/english/latestnews.asp?ncode=32443

Another human case of bird flu in China died recently, bringing the total bird flue death toll to seven, the Ministry of Health said here Wednesday.

The new fatality is a 29-year-old woman, surnamed Cao, from Jinhua Town of Chengdu City in southwest China's Sichuan Province, the ministry's information office told Xinhua.

Cao was identified as the 10th human case in China on Monday, after being hospitalized in a critical condition, according to the ministry. Three of the 10 patients are either recovered or under treatment.

On Jan. 12, she showed fever and pneumonia symptoms. Her samples tested H5N1 positive.

The office failed to provide more details about the victim, but said it is probing into the source of her infection and any possible bird flu outbreak among poultry in the area where she lived.

Cao's death brought the country's bird flu fatalities to seven. She was the second bird flu death in Sichuan. The other deaths were reported in the provinces of Anhui, Jiangxi, Fujian, and in the Guangxi Zhuang Autonomous Region.

Source: Xinhua

http://english.peopledaily.com.cn/200601/26/eng20060126_238473.html

The Philippines has imposed stricter guidelines on corn and feed wheat imports from China and other countries hit by bird flu, ABS-CBN learned Thursday.

Agriculture Secretary Domingo Panganiban said that under the new rules, which took effect Tuesday, imports of corn or feed wheat from bird flu-infected areas in southern China would be banned.

"We are protecting our 180-billion-peso poultry industry," Panganiban told Reuters.

The Philippines has remained free of the bird flu virus that has ravaged many parts of Asia.

The new import guidelines come at a time that Philippine firms are starting to buy Chinese corn and feed wheat this year to fill shortfalls in domestic corn.

Last week, Philippine feedmillers bought 24,050 tons of Chinese yellow corn for shipment no later than February 15 from trading firm Bunge Ltd., and industry officials said they expected more imports in the next few months.

Panganiban said imports of corn or feed wheat from other parts of China will be allowed, provided they were stored for at least two weeks in a warehouse to ensure that they were free of the bird flu virus.

The World Health Organization has said the H5N1 avian influenza virus can survive for more than a month in bird droppings in cold weather and nearly a week even in hot summer temperatures.

Corn cargoes from China will only be limited to those that originated 15 km away from any bird flu-affected areas, Panganiban said..

The stricter guidelines will also be applied for imports from other countries affected by bird flu, he said.

Bird flu has killed at least 82 people in six countries since late 2003, and has resulted in millions of dollars of damages to the poultry industry.

Reuters

http://www.abs-cbnnews.com/storypage.aspx?StoryId=28271

By JACQUI THORNTON
Health Editor

20 people have had urgent oxygen-tent treatment in Britain for suspected bird flu, it emerged last night.

They were treated in the past six months as the bug spread from Asia to Turkey.

The patients were put in sealed oxygen chambers to isolate possible contamination while they were assessed.

From the moment they entered hospital they were subject to special measures.

They were met at the doors after being sent by worried GPs and ushered to isolation areas.

Medics in special masks, eye protection and gowns took blood samples for analysis.

The patients were then kept in the “negative pressure” oxygen chambers.

These have lower air pressure inside than out — stopping infections escaping.

All those tested for the H5N1 strain of bird flu were negative, the Department of Health confirmed.

A spokeswoman said: “Since last June we have had 20 negatives, from people visiting Vietnam, Thailand and China or people with families in those areas. They will have felt unwell and gone to the doctor.

“More recently we have had people who have come back from Turkey who have had respiratory illness.

“They have been tested and they have not got H5N1.”

There have been no cases of bird flu in Britain so far, but 80 people have died worldwide, including four in Turkey.

Victims contract the virus through close contact with sick birds.

However, experts fear the virus could mutate into a form that passes easily between humans, putting millions of lives at risk around the world.

http://www.thesun.co.uk/article/0,,2-2006040257,00.html

26 January 2006


NICOSIA - Bird flu has been detected in poultry in the Turkish-held north of Cyprus, but it was not yet clear whether it was the highly infectious strain of the virus that is deadly to humans, a senior Turkish Cypriot official said.

It is the first time avian influenza has been spotted in Cyprus, the Mediterranean island which lies only 40 miles (65 kilometres) off Turkey, where the virus has already claimed four lives.

“The H5 virus has been confirmed” in tests conducted in the Turkish Republic of Northern Cyprus (TRNC), the breakaway statelet recognised only by Turkey, prime minister Ferdi Sabit Soyer told reporters late Wednesday.

Samples taken from a chicken and a turkey in a village near Famagusta on the eastern coast of the island have been sent to Turkey and Britain to determine whether it was the deadly H5N1 strain, he added.

The results were expected shortly.

Turkish Cypriot authorities have already culled about 1,500 poultry and birds since they found the suspect birds on Monday.

The internationally recognised Cyprus government in the south of the island began to slaughter poultry not kept in enclosed spaces on Tuesday as part of tighter measures to guard against bird flu.

Stricter inspections have been set up on the checkpoints between the north and the south, and the Greek Cypriots have warned their citizens against buying smuggled poultry from the north.

As an additional measure, vehicles crossing the divide are being sprayed with disinfectant.

Cyprus has been divided along ethnic lines since 1974 when Turkey invaded and occupied the north in response to an Athens-engineered Greek Cypriot coup in Nicosia aimed at uniting the island with Greece.

http://www.khaleejtimes.com/Display...uary/theworld_January592.xml&section=theworld

most, not all traced to direct or indirect contact with birds

25 Jan 2006 14:50:41 GMT
Source: Reuters

Jan 25 (Reuters) - The World Health Organisation confirmed on Wednesday that a Chinese woman infected with bird flu, the country's 10th human bird flu victim, has died. This death brings to 83 the total number of confirmed deaths from the virus since 2003.

To date, seven of the 10 Chinese people officially confirmed to have contracted bird flu have died.

Turkey has reported 21 cases of H5N1, including four deaths. However, the WHO is awaiting final laboratory confirmation of these cases before updating its count for Turkey.

Following is a list of confirmed human cases of H5N1 bird flu from the WHO in Geneva. Total cases includes survivors.

Deaths Total cases
CAMBODIA 4 4
CHINA 7 10
INDONESIA 14 19
THAILAND 14 22
VIETNAM 42 93
TURKEY 2 4
--------------------
TOTAL 83 152
-----------------
Initial testing usually takes a day or two to confirm if someone has H5N1. More detailed testing by government laboratories or those affiliated with the WHO can take a week or more.

The H5N1 virus remains primarily a virus of birds, but experts fear it could change into a form easily transmitted from person to person and sweep the world, killing millions within weeks or months.

So far, most human cases can be traced to direct or indirect contact with infected birds.

http://www.alertnet.org/thenews/newsdesk/L25764985.htm

Who else here besides me HIGHLY DOUBTS the actual numbers coming out of china????????

A 22-year-old Indonesian man who was infected with the bird flu virus has died in hospital.

A spokesman at the Sulianti Saroso hospital said the man, who sold chickens, died at 7am Irish time today. Most of Indonesia's bird flu patients are being treated at the Sulianti Saroso hospital.

A Hong Kong laboratory affiliated to the World Health Organisation is to carry out tests to see if the man died from the H5N1 strain of bird flu. Local tests have already indicated that the man had the H5N1 strain.
Advertisement

Around 80 people have died from the H5N1 strain of bird flu since 2003.

http://www.rte.ie/news/2006/0126/birdflu.html

By Max Planck Society, The worldwide spread of disease - particularly, pandemics with disastrous consequences for human health and economics - has become a serious threat in the globalised world of intense international trade, growing mobility, and increasing traffic intensity. Bird flu (avian influenza A), the possible emergence of a new human "supervirus", and a potential worldwide flu pandemic, have all made headlines in the last weeks and months - for good reason.

The prime cause of the geographical spread of disease is the movement of infected individuals from place to place. Historical pandemics, like the 14th-century plague, only moved slowly in wave fronts across geographical areas, because in the middle ages people could typically only travel a few kilometres a day. The speed with which epidemics could spread was thus kept in check. The rapid worldwide spread of SARS (severe acute respiratory syndrome) has already demonstrated this.

In order to describe the spread of modern disease using mathematical models, and to develop a way of predicting that spread, we need a quantitative knowledge of people’s travelling behaviour at various scales of distance. Unfortunately, until now, one has not been able to quantify the characteristics of human travel. Over short to medium distances, people use bicycles, cars, and trains. Over longer ones, airplanes are typical. In order to obtain a comprehensive dataset on human travel, transportation flow would have to be measured, nationally and internationally, over a long period of time. D Brockmann, L Hufnagel, and T Geisel, theoretical physicists at the Max Planck Institute for Dynamics and Self-Organization in Göttingen, the University of Göttingen, and the University of California Santa Barbara, have now found an innovative way around these difficulties, and determined the rules governing human travel with a high precision.

Instead of the movements of individuals, the researchers investigated the geographical circulation of banknotes which travellers carry from place to place. The physicists analysed the data from a US bill-tracking internet game. If a person receives a marked banknote, he/she can register its current location online and return the bill to the pool. Dirk Brockmann of the Max Planck Institute for Dynamics and Self-Organization says, "we recognised that the enormous amount of data, as well as the geographical and temporal resolution of bill-tracking, allow us to draw conclusions about the statistical characteristics of human travel, independent of which means of transportation people use. This hope was borne out beyond expectations. In the data about movement, the scientists discovered universal scaling laws which lie at the root of human travel behaviour. Scientists are already familiar with similar scaling laws from physical and biological systems - for example, turbulent flow and chaotic systems. This result surprised us all.


Until now, numerous models of the geographic spread of disease were based on the assumption that viruses disperse over geographic areas in a way similar to the diffusion of fine dust particles on the surface of water. These standard models can describe the wavelike spread of historical pandemics quite successfully. Dirk Brockmann concludes that "the consequence of these results is that new theoretical concepts must be developed to understand the geographic spread of modern diseases.

Because the mechanisms of transmission of diseases from human to human are already well understood, the scientists can use the new theory to investigate new models which describe the global spread of disease much more realistically. Professor Theo Geisel, Director of the Max Planck Institute for Dynamics and Self-Organization, says that "we are optimistic that this will drastically improve predictions about the geographical spread of epidemics."

- D Brockmann, L Hufnagel and T Geisel, The scaling laws of human travel, Nature, 26 January 2006

http://www.rxpgnews.com/research/publichealth/article_3291.shtml

Why didn't they just use the Wheresgeorge.com info?

The mass decoding of nearly 170 strains of avian influenza has pinpointed a particular protein region that may help the H5N1 virus to kill with a vengeance.

Human pandemics of influenza are all thought to have stemmed from bird flu viruses, and virologists are desperate to know why some viruses prove more lethal than others. The viruses' genetic codes could reveal such secrets but, until now, scientists have collected only a few complete flu genome sequences.

Now, Clayton Naeve of St Jude Children's Research Hospital in Memphis, Tennessee, and his colleagues have doubled the amount of genetic information available on bird flu viruses in one swoop. The team used a bank of around 7,000 viral samples from ducks, gulls, poultry and other birds from around the globe. These were collected by Robert Webster, an infectious diseases researcher also at the St Jude hospital, over the past three decades.

The team deduced the genetic code of 169 complete flu virus genomes and many more partial sequences, and report their findings in the journal Science1. They compared each sequence with every other sequence, and with previously determined sequences, to pull out key differences that might explain why some viruses are more virulent than others.

The researchers showed that one key viral protein known as NS1, which is manufactured inside infected cells and blocks their anti-viral response, could explain why some viruses are so damaging to humans. This NS1 protein tends to have a specific form in bird flu viruses, and a different form in most human flu viruses.

Binding power

The team showed that samples of the H5N1 virus that killed humans in Asia between 1997 and 2004 had the 'bird' form of NS1. And the strain that caused the terrible 1918 pandemic had a similar, but unique, bird form of the protein. By contrast, the viruses that triggered milder human pandemics in 1957 and 1968 possessed a more 'human' form.

The group additionally showed that the bird form of NS1 can bind to 30 human proteins, whereas the human form could bind very few of those they tested. The researchers propose that this helps the virus interfere with these proteins and harm the cells.

There are 11 proteins known to exist in flu viruses. Previously, research into virulence had been largely focussed on the haemagglutinin and neuraminidase proteins (this is what the H and N stand for in H5N1), which sit on the surface of the virus and help it to invade cells. Researchers suspect that other proteins are involved; now they have pinned down the important role of NS1.

Albert Osterhaus, a virologist at the Erasmus University in Rotterdam who is planning a similar large-scale sequencing project in the Netherlands, calls the paper "highly significant". "The data and analysis give us a very clear virulence marker which turns out to be quite universal," he says.

Family tree

The researchers also devised an easier way to compare bird flu viruses with one another, a method they call 'proteotyping'. Instead of comparing raw genetic information, they translated this into information about proteins, and then used this to sort viruses into a kind of evolutionary tree. This helps researchers to track how virulence to humans evolved. "The new methodology of proteotyping is very powerful," Osterhaus says.

The study does not answer the big outstanding question about the current outbreak of H5N1: will the virus acquire the ability to jump easily between people?

But the researchers hope that further scrutiny of the data, which they have placed in databases that are accessible to all scientists, will help to answer this. "We hope other investigators will start to mine this data," Naeve says.

http://www.nature.com/news/2006/060123/full/060123-11.html

Nuthatch said:

Why didn't they just use the Wheresgeorge.com info?

Click to expand...

They did... http://www.timebomb2000.com/vb/showthread.php?t=184212

Updated: 5:51 p.m. ET Jan. 26, 2006

DAVOS, Switzerland - The global threat that most preoccupies the world’s business leaders is the deadly H5N1 bird flu virus, according to a study released Thursday at the World Economic Forum.

Other global risks, such as terrorist attacks and the possibility of an even bigger oil price shock, were deemed just as dangerous, but less likely to happen in the coming year, said the “Global Risks 2006” report.

The H5N1 bird flu strain has ravaged poultry stocks in Asia since 2003 and recently spread to Europe through migratory birds. World health authorities fear the disease could mutate into a form that spreads easily from person-to-person, sparking a flu pandemic that could kill millions of people.

So far, though, human cases of the disease have been mostly limited to people who have come into direct contact with infected birds. According to the World Health Organization, 83 people have died of the disease since 2003.

“If the avian flu H5N1 virus mutates to enable human-to-human transmission, it may disrupt our global society and economy in an unprecedented way,” said the 22-page risk study, which was released by a panel of companies and experts.

Death tolls could be on the level of the 1918-1919 Spanish flu pandemic, which is estimated to have killed between 40 million and 50 million people worldwide, it said.

The report also said it was very likely that 5 million more people would become infected with HIV and tuberculosis this year.

While the report predicted a number of small-scale terrorist attacks in 2006, it said large-scale simultaneous attacks were less likely, primarily because the capability of terrorists to coordinate their activities had diminished.

“Terrorist attacks involving aircraft and high explosives have already had a massive global impact,” the study said, but added, “The capacity of terrorist organizations to act globally in a coordinated way has diminished.”

The risk of a major attack will rise in coming years, however, it said.

The report warned of other possible severe shocks, such as an oil price spike to $100 a barrel or an earthquake hitting Tokyo, but said those risks had a low likelihood of occurring.

“The world suffered an oil-price spike above $70 in 2005,” the study said. “The world’s reliance on hydrocarbons and growing concerns about the geopolitics of supply mean that oil prices will inevitably be an issue of concern in 2006 and beyond.”

But even if oil prices should rise above $100, it is “relatively unlikely” that they would remain so high for an extended period, it said.

It said the Pakistan earthquake provided a lesson that the world lacks the capacity to respond sufficiently to major disasters and “a warning that many parts of the world remain highly vulnerable to natural disaster.”

The Forum study was based primarily on contributions from Marsh & McLennan Companies, Inc., Merrill Lynch and Swiss Reinsurance Co. and the Wharton School at the University of Pennsylvania.

© 2006 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

http://www.msnbc.msn.com/id/11047805/

This sounds like the Pharms are cooperating the way the auto and aero industries did in WWII.
______________________________________________________________

The Times January 27, 2006
By Richard Irving

PRESIDENT BUSH is to wave through legislation exempting drug makers from anti-competition rules, one of the fundamental pillars of US corporate law, in an effort to bolster America’s ability to respond to a pandemic outbreak of bird flu.

The unprecedented move, which has the backing of the Attorney-General and Vice President Cheney, will clear the way for potentially widespread co-operation between companies capable of making a vaccine to counter the strain of flu known as H5N1. A formal announcement approving the initiative could come from the office of the Federal Trade Commission (FTC) within weeks.

Speaking to The Times yesterday, Jean-Pierre Garnier, the chief executive of GlaxoSmithKline (GSK), said: “We’re waiting for the FTC to give us the final OK. We are very hopeful that we should have it in weeks.”

Dr Garnier said that GSK, Europe’s biggest drugs maker, had tried to explore partnership agreements with several rival vaccine manufacturers, but had been severly hampered by fears that negotiations could prompt accusations that the industry was trying to establish a cartel.

“Wherever you have the capacity to make a flu vaccine, you have the capacity to make a pandemic vaccine,” Dr Garnier said. “If GSK is the one to discover a vaccine against H5N1, we want to encourage other manufacturers to give us access to their capacity — they will have nothing to do so they might as well make ours.

“This would be an unprecedented step, but we are facing an unprecedented situation.”

It is understood that US officials have grasped the need to bolster capacity. Drugmakers can currently manufacture just 300 million doses of pandemic vaccine a year. This could rise dramatically if other vaccine makers turned their factories over to the production of a jab against a pandemic flu virus.

Yesterday GSK confirmed that final clinical tests on its H5N1 shot would start within weeks. “If the authorities approve the prototype fast enough, we could be making large quantities . . . by Christmas,” Dr Garnier said.

The chief executive, in buoyant mood ahead of the publication early next month of full-year figures, also sought to reassure investors over the issue of his successor. He effectively ruled out an appointment from outside the group, saying one of four insiders would emerge as the best man.

http://business.timesonline.co.uk/article/0,,13129-2012101,00.html

Pitt researchers develop bird flu vaccine​

http://www.pittsburghlive.com/x/tribune-review/trib/pmupdate/s_417589.html

By Jennifer Bails
TRIBUNE-REVIEW
Thursday, January 26, 2006


University of Pittsburgh researchers have developed a vaccine that provides full protection against a highly lethal strain of avian influenza in mice and chickens.

The animals that had been immunized by the vaccine all survived lethal doses of Vietnam strain of the bird flu virus, according to a study published today online in the Journal of Virology.

This vaccine – made from bits of bird flu DNA packaged inside a harmless cold virus -- has the potential to be manufactured much more quickly and cheaply than the experimental vaccine being tested now by the federal government, said Dr. Andrea Gambotto, a professor of molecular genetics and biochemistry at Pitt and lead author of the study.

The vaccine also demonstrated the added advantage of activating a powerful arm of the immune system that the current vaccine doesn’t, Gambotto said.
That is important because it might mean the vaccine would provide protection against the rapidly evolving bird flu virus as it mutates into new strains.

Gambotto and other scientists at Pitt collaborated with the U.S. Centers for Disease Control and Prevention and the U.S. Department of Agriculture in this study.

They are seeking federal dollars to test the vaccine in people.

Vaccine provides 100 percent protection against avian flu virus in animal study​

http://www.eurekalert.org/pub_releases/2006-01/uopm-vp1012606.php

Public release date: 26-Jan-2006

Contact: Jim Swyers / Lisa Rossi
SwyersJP@upmc.edu / RossiL@upmc.edu
412-647-3555 (phone)
412-624-3184 (fax)
University of Pittsburgh Medical Center

Vaccine provides 100 percent protection against avian flu virus in animal study

PITTSBURGH, Jan. 26 – University of Pittsburgh researchers announced they have genetically engineered an avian flu vaccine from the critical components of the deadly H5N1 virus that completely protected mice and chickens from infection. Avian flu has devastated bird populations in Southeast Asia and Europe and so far has killed more than 80 people.

Because this vaccine contains a live virus, it may be more immune-activating than avian flu vaccines prepared by traditional methods, say the researchers. Furthermore, because it is grown in cells, it can be produced much more quickly than traditional vaccines, making it an extremely attractive candidate for preventing the spread of the virus in domestic livestock populations and, potentially, in humans, according to the study, published in the Feb 15 issue of the Journal of Virology and made available early online.

"The results of this animal trial are very promising, not only because our vaccine completely protected animals that otherwise would have died, but also because we found that one form of the vaccine stimulates several lines of immunity against H5N1," said Andrea Gambotto, M.D., assistant professor in the departments of surgery and molecular genetics and biochemistry, University of Pittsburgh School of Medicine, and lead author of the study.

Dr. Gambotto and his colleagues constructed the vaccine by genetically engineering a common cold virus, called adenovirus, to express either all or parts of an avian influenza protein called hemagglutinin (HA) on its surface. Found on the surface of all influenza viruses, HA allows the virus to attach to the cell that is being infected and is, therefore, critical to the influenza virus' ability to cause illness and death.

Since the late 1990s, a number of outbreaks of the avian influenza H5N1 in poultry have occurred in Cambodia, China, Indonesia, Japan, Laos, South Korea, Thailand and Vietnam. Outbreaks recently have been reported in Turkey and Romania. To date, H5N1 has caused the most large-scale and widespread bird deaths in known history--an estimated 150 to 200 million birds have either died in the outbreaks or been killed as part of infection control actions in the last eight years.

The H5N1 virus does not usually infect humans. However, in 1997, the first case of spread from a bird to a human occurred in Hong Kong during an outbreak of bird flu in poultry. The virus caused severe respiratory illness in 18 people, six of whom died. Since that time, more than 170 cases of known H5N1 infection have occurred among humans worldwide, approximately half of whom died.

Based on the published sequence of the Vietnam strain of the H5N1 avian influenza virus, members of the University of Pittsburgh Vector Core Facility, led by Wentao Gao, Ph.D., research instructor in the School of Medicine's department of surgery, constructed several adenovirus "vectors"--viruses that have been modified to serve as a vector, or delivery vehicle, for foreign genes or DNA--containing either the full genetic sequence of the HA protein or sequences for only parts, or subunits, of HA. They also constructed a vector containing sequences for a portion of the HA protein from the H5N1 Hong Kong strain.

Collaborating with investigators Xiuhua Lu, Ph.D., Doan C. Nguyen, M.D., Yumi Matsuoka, Ph.D., Ruben O. Donis, Ph.D., and Jaquelin M. Katz, Ph.D., of the Influenza Branch of the Centers for Disease Control and Prevention, Dr. Gambotto's team tested the ability of their slightly different vaccines to protect mice from infection by wild-type H5N1 by comparing its performance to an adenovirus vector containing no H5N1 genes, or an "empty vector." The investigators then observed the H5NI-exposed mice for any signs of illness, including weight loss and death, and also checked their blood for anti-viral antibodies and other markers of H5N1-specific immunity.

All of the mice immunized with the empty vector vaccine experienced substantial weight loss beginning about three days after exposure to wild-type H5N1, and all were dead within six to nine days of avian flu exposure. In sharp contrast, most of the mice immunized with the adenovirus containing either the whole or part of the HA protein showed only mild and short-lived weight loss and survived H5N1 infection.

When the investigators looked for evidence of a specific immune response to H5N1, they found similar results. Although they were able to isolate high levels of infectious H5N1 from multiple organs in the mice vaccinated with the empty vector, and to various degrees in animals vaccinated with the vectors containing the HA subunits, they isolated only very small amounts of H5N1 from the mice immunized with the full-length HA vaccine three days after infection. Six days after infection, they could not detect any infectious H5N1 in the organs of mice immunized with the full-length HA vaccine.

Moreover, when they looked at the cellular immune response to vaccination, they found that all of the animals immunized with full-length HA or the subunit vaccines developed strong cellular immune responses. However, only the full-length HA-immunized mice developed strong T-cell responses to both of the HA subunits. According to Simon Barratt-Boyes, B.V.Sc., Ph.D., associate professor, department of infectious diseases and microbiology, University of Pittsburgh Graduate School of Public Health, and one of the co-authors of the study, the ability of this particular recombinant vaccine--a vaccine carrying only the important immune-stimulating proteins--to induce both antibody- and T cell-directed immunity is extremely encouraging.

"This means that this recombinant vaccine can stimulate several lines of defense against the H5N1 virus, giving it greater therapeutic value. More importantly, it suggests that even if H5N1 mutates, the vaccine is still likely to be effective against it. How effective, we are not sure," Dr. Barratt-Boyes cautioned. "We won't know until that occurs."

Based on the superior degree of protection that they found in mice vaccinated with full-length HA vaccine, Dr. Gambotto's group, working with David E. Swayne, D.V.M., Ph.D., at the U.S. Department of Agriculture, tested its effectiveness in chickens, which have almost a 100 percent mortality rate to H5N1 exposure. In all, the researchers inoculated four groups of chickens either through their noses (intranasally) or with subcutaneous injections of either the HA-containing vaccine or the empty vector vaccine. The chickens were then challenged with a dose of whole H5N1 virus 10,000 times greater than the dose given to the mice and significantly greater than the dose farm chickens are likely to be exposed to during a natural outbreak.

Interestingly, all of the chickens that were immunized subcutaneously survived exposure to H5N1, developed strong HA-specific antibody responses and showed no clinical signs of disease. In contrast, half of the chickens immunized intranasally died and half survived. All of the chickens immunized with the empty vector (intranasally and subcutaneously) died within two days of H5N1 exposure. The researchers are still not yet sure why the subcutaneous delivery is more effective than the intranasal delivery of the vaccine, but they suggested it may be because the adenovirus vector they used has limited infectivity via the nose and respiratory tract.

Dr. Gambotto and his colleagues suggest that rather than replacing traditional inactivated influenza vaccines, their adenovirus-based vaccine could be a critically important complement to them. Because it appears to be so successful in immunizing chickens against H5N1, widespread inoculation of susceptible poultry populations could provide a significant barrier to the spread of the virus via that route in this country and other countries that have so far been spared from avian flu. Also, if there were a disruption in the traditional vaccine production pipeline, a recombinant vaccine could be an attractive alternative for human immunization as well, they said.

Indeed, according to Dr. Gambotto, there are several major advantages to this type of vaccine development approach over traditional approaches. Flu vaccines currently are prepared in fertilized chicken eggs, a process developed more than 50 years ago that requires millions of fertilized eggs that would be in short supply if a pandemic--a widespread, global outbreak--were to occur. The recombinant vaccine approach grows the vaccine in cell cultures, which are unlimited in supply. Another major advantage of this approach is its speed.

"It takes a little over a month for us to develop a recombinant vector vaccine compared to a minimum of several months via traditional methods," he explained. "This capacity will be particularly invaluable if the virus begins to mutate rapidly, a phenomenon that often limits the ability of traditional vaccines to contain outbreaks of mutant strains." Dr. Gambotto added that his group is planning a small clinical trial of the vaccine in humans in the very near future.

###

The research was supported by internal University of Pittsburgh funds. Others involved in this study include Paul D. Robins, Ph.D. and Angela Montecalvo, Ph.D., University of Pittsburgh School of Medicine; and Adam C. Soloff, B.S., University of Pittsburgh Graduate School of Public Health.