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Related: Editorials & Other Articles, Issue Forums, Alliance Forums, Region ForumsNature’s Bioterrorist Agents - Just how bad is the new bird flu?
Water birds, to an influenza researcher, are more than majestic swans and charming mallards. They are instead stealthy vectors of novel influenza viruses, some of natures bioterrorist agents, chauffeuring dangerous microbes from place to place without showing symptoms of infection themselves. Wild waterfowl are reservoirs for every imaginable combination of influenza viruses, though the vast majority of those viral cocktails dont seem to infect humans.
However, spillover of bird viruses into the human population is a numbers game. With billions of birds hosting an uncountable number of permutations of influenza strains, its inevitable that once in a while, one of these combinations will evolve the ability to replicate in humans. This has happened with an influenza type known as H5N1, the bird flu that the world has been watching since it was first isolated from human infections in Hong Kong in 1997. In the past 16 years, H5N1 has caused more than 600 infections in humans and almost 400 deathskilling approximately 60 percent of those who are known to have been infected with this virus. Luckily, H5N1 hasnt evolved the one thing that is critical for kick-starting an influenza pandemicefficient transmission between humans. Instead, most patients probably acquired the virus from domesticated poultry, such as chickens and farmed ducks.
While we were carefully watching H5N1 in Asia and Europe, another influenza virus2009 H1N1appeared seemingly out of nowhere. Ultimately traced back to swine, this virus was easily spread between people, but unlike H5N1, it wasnt any more deadly than our normal yearly influenza viruses (which, it should be noted, still kill on the order of 36,000 Americans each year). And now, while were still working on understanding how H5N1 and H1N1 have jumped between species, yet another influenza type has surfaced: H7N9.
Snip
Tara C. Smith is an associate professor of epidemiology at the University of Iowa, where she serves as co-director of the Center for Emerging Infectious Diseases. She studies zoonotic diseases, focusing on Staphylococcus aureus, and maintains a blog on infectious diseases at scienceblogs.com/aetiology. You can also follow her on Twitter at @aetiology.
However, spillover of bird viruses into the human population is a numbers game. With billions of birds hosting an uncountable number of permutations of influenza strains, its inevitable that once in a while, one of these combinations will evolve the ability to replicate in humans. This has happened with an influenza type known as H5N1, the bird flu that the world has been watching since it was first isolated from human infections in Hong Kong in 1997. In the past 16 years, H5N1 has caused more than 600 infections in humans and almost 400 deathskilling approximately 60 percent of those who are known to have been infected with this virus. Luckily, H5N1 hasnt evolved the one thing that is critical for kick-starting an influenza pandemicefficient transmission between humans. Instead, most patients probably acquired the virus from domesticated poultry, such as chickens and farmed ducks.
While we were carefully watching H5N1 in Asia and Europe, another influenza virus2009 H1N1appeared seemingly out of nowhere. Ultimately traced back to swine, this virus was easily spread between people, but unlike H5N1, it wasnt any more deadly than our normal yearly influenza viruses (which, it should be noted, still kill on the order of 36,000 Americans each year). And now, while were still working on understanding how H5N1 and H1N1 have jumped between species, yet another influenza type has surfaced: H7N9.
Snip
Tara C. Smith is an associate professor of epidemiology at the University of Iowa, where she serves as co-director of the Center for Emerging Infectious Diseases. She studies zoonotic diseases, focusing on Staphylococcus aureus, and maintains a blog on infectious diseases at scienceblogs.com/aetiology. You can also follow her on Twitter at @aetiology.
http://www.slate.com/articles/health_and_science/medical_examiner/2013/04/the_h7n9_bird_flu_in_china_how_dangerous_is_it.html
More at link. Tara Smith gives a very concise and rational report on the status of H7N9. Good stuff.
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Nature’s Bioterrorist Agents - Just how bad is the new bird flu? (Original Post)
SidDithers
Apr 2013
OP
dipsydoodle
(42,239 posts)1. Tamiflu-Resistance Gene in H7N9 Bird Flu Spurs Drug Tests
A gene mutation known to help influenza resist Tamiflu was found in the first of three H7N9 bird-flu patient specimens in China, sequence data show.
The flu virus from the patient in Shanghai has a mutation known as R292K that causes high-level resistance to the Roche Holding AG (ROG) pill and reduced sensitivity to a related drug from GlaxoSmithKline Plc (GSK) called Relenza, genetic sequence information posted on the website of the Global Initiative on Sharing Avian Influenza Data show. Subsequent H7N9 specimens from a patient in Shanghai and one in Anhui province dont show the mutation.
http://www.bloomberg.com/news/2013-04-11/tamiflu-resistance-gene-in-h7n9-bird-flu-spurs-drug-tests.html