Now the CDC is openly bragging of merging swine flu and avian bird flu, just to, you know, see what would happen if, hypothetically, the two viruses merged with each other. And then, miraculously, when a hybrid of the two happens to appear among the general population, they'll tell you, see? We knew this would happen. We were prepared!
And people will believe them. It's all a huge joke to these people.
- Wall Street Journal -
Public-health officials are breathing a small sigh of relief that the H1N1 swine flu virus hasn’t mutated to become more deadly since emerging last spring. But what are the chances it will?
To find out, scientists at the CDC recently launched experiments in the agency’s labs in which they infected ferrets with both the new H1N1 virus and the highly lethal H5N1 avian flu virus to see if they might “reassort” to create a new hybrid.
The scientists want to know whether a combination of the H1N1 virus -– highly transmissible, but not terribly deadly -– and the H5N1 flu virus could create an easily transmissible, deadly scourge. The H5N1 virus has only sickened 440 people world-wide since 2003 and generally isn’t transmitted from one person to another. But it has killed 262, or about 60%, of those people, according to the World Health Organization.
As the new H1N1 flu has spread, flu experts have kept a close eye on Egypt and parts of the world where human H5N1 infections are occurring too. The two viruses could mix if they infected the same person simultaneously. The new H1N1 virus was also detected recently in turkeys in Chile, proving that it has the capacity to jump to birds, another potential source for reassortment.
The CDC scientists don’t have results of their lab experiments in ferrets yet, said Michael Shaw, associate director for laboratory science for the agency’s influenza division. While the experiments could produce viable combinations of the two viruses, the real question is whether any could create a virus that would spread, he said. “Viability is one thing,” he cautioned. “Whether it’s easily transmissible is another.”
Other experiments conducted so far suggest the new H1N1 virus isn’t terribly prone to doomsday changes. Viruses can change through either mutation of genetic material, or by reassorting with another flu virus. The new virus is lacking certain characteristics that would allow it to mutate to become more virulent, said Nancy Cox, chief of the CDC’s influenza division. “It would be difficult for this virus to acquire some of those known virulence markers,” she said.
As for reassortment, so far the new H1N1 virus hasn’t shown a penchant for mixing with other common flu viruses. In a research note published in late August on the Web site PloS Currents: Influenza, scientists infected ferrets both with the new H1N1 virus and common seasonal strains of H1N1 and H3N2 flu. The new H1N1 pandemic virus didn’t reassort.
“Co-infection of seasonal and pandemic strains did not result in the rapid selection of reassortant viruses that either improved replication or transmission or exacerbated virulence,” they concluded. The federally funded study was led by scientists at the University of Maryland.
Whatever any of the experiments show, CDC officials warn against drawing definitive conclusions. “Influenza is really unpredictable,” Cox said.