Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Influenza Humans
Using Quantitative Disease Dynamics As A Tool For Guiding Response To Avian Influenza In Poultry In The United States Of America, K. M. Pepin, E. Spackman, J. D. Brown, K. L. Pabilonia, Lindsey P. Garber, J. Todd Weaver, D. A. Kennedy, Kelly A. Patyk, K. P. Huyvaert, Ryan S. Miller, Alan B. Franklin, Kerri Pedersen, T. L. Bogich, P. Rohani, Susan A. Shriner, Colleen T. Webb, S. Riley
Using Quantitative Disease Dynamics As A Tool For Guiding Response To Avian Influenza In Poultry In The United States Of America, K. M. Pepin, E. Spackman, J. D. Brown, K. L. Pabilonia, Lindsey P. Garber, J. Todd Weaver, D. A. Kennedy, Kelly A. Patyk, K. P. Huyvaert, Ryan S. Miller, Alan B. Franklin, Kerri Pedersen, T. L. Bogich, P. Rohani, Susan A. Shriner, Colleen T. Webb, S. Riley
USDA Wildlife Services: Staff Publications
Wild birds are the primary source of genetic diversity for influenza A viruses that eventually emerge in poultry and humans. Much progress has been made in the descriptive ecology of avian influenza viruses (AIVs), but contributions are less evident from quantitative studies (e.g., those including disease dynamic models). Transmission between host species, individuals and flocks has not been measured with sufficient accuracy to allow robust quantitative evaluation of alternate control protocols. We focused on the United States of America (USA) as a case study for determining the state of our quantitative knowledge of potential AIV emergence processes from wild hosts …
Assessment Of Introduction Pathway For Novel Avian Influenza Virus Into North America By Wild Birds From Eurasia, Ryan S. Miller, Steven J. Sweeney, Judy E. Akkina, Emi K. Saito
Assessment Of Introduction Pathway For Novel Avian Influenza Virus Into North America By Wild Birds From Eurasia, Ryan S. Miller, Steven J. Sweeney, Judy E. Akkina, Emi K. Saito
Other Publications in Zoonotics and Wildlife Disease
A critical question surrounding emergence of novel strains of avian influenza viruses (AIV) is the ability for wild migratory birds to translocate a complete (unreassorted whole genome) AIV intercontinentally. Virus translocation via migratory birds is suspected in outbreaks of highly pathogenic strain A(H5N1) in Asia, Africa, and Europe. As a result, the potential intercontinental translocation of newly emerging AIV (e.g. A(H7N9) from Eurasia to North America via migratory movements of birds) remains a concern. An estimated 1.48 to 2.91 million aquatic birds, principally Anseriformes (ducks, geese, and swans) and Charadriiformes (gulls, terns, and shorebirds) move annually between Eurasia and North …