|Title:||Lessons from the largest epidemic of avian influenza viruses in Taiwan, 2015||Authors:||Chang C.-F.
|Issue Date:||2016||Journal Volume:||60||Journal Issue:||1||Start page/Pages:||156-171||Source:||Avian Diseases||Abstract:||
The largest epidemic of avian influenza (AI) in history attacked poultry and wild birds throughout Taiwan starting January 6, 2015. This study analyzed surveillance results, epidemiologic characteristics, and viral sequences by using governmentreleased information, with the intention to provide recommendations to minimize future pandemic influenza. The H5 clade 188.8.131.52 highly pathogenic AI viruses (HPAIVs) had not been detected in Taiwan before 2015. During this epidemic, four types of etiologic agents were identified: The three novel subtypes H5N2, H5N8, and H5N3 clade 184.108.40.206 HPAIVs and one endemic chicken H5N2 subtype (Mexican-like lineage) of low pathogenic AI viruses. Cocirculation of mixed subtypes also occurred, with H5N2 clade 220.127.116.11 HPAIVs accompanied by the H5N8 and H5N3 subtypes or old H5N2 viruses in the same farm. More than 90% of domestic geese died from this AI epidemic; geese were affected the most at the early outbreaks. The epidemic peaked in mid-January for all three novel H5 subtypes. Spatial epidemiology found that most affected areas were located in southwestern coastal areas. In terrestrial poultry (mostly chickens), different geographic distributions of AI virus subtypes were detected, with hot spots of H5N2 clade 18.104.22.168 vs. past-endemic old H5N2 viruses in Changhwa (P 5 0.03) and Yunlin (P 5 0.007) counties, respectively, of central Taiwan. Phylogenetic and sequence analyses of all the early 10 Taiwan H5 clade 22.214.171.124 isolates covering the three subtypes showed that they were very different from the HA of the past local H5 viruses from domestic ducks (75%- 80%) and chickens (70%-75%). However, they had the highest sequence identity percentages (99.53%-100%), with the HA of A/crane/Kagoshima/KU13/2014(H5N8) isolated on December 7, 2014, in Japan being higher than those of recent American and Korean H5 HPAIVs [A/Northern pintail/Washington/40964/2014 (H5N2) and A/gyrfalcon/Washington/41088-6/2014 (H5N8): 99.02%-99.54% and A/Baikal teal/Korea/Donglim3/2014 (H5N8): 98.61%-99.08%], implying a likely common ancestor of these H5 clade 126.96.36.199 viruses. The multiple subtypes of H5 clade 188.8.131.52 HPAIVs imply high viral reassortment. We recommend establishing an integrated surveillance system, involving clinical, virologic, and serologic surveillance in poultry and wild birds, swine and other mammals prevalent on multiple-Animal mixed-type traditional farms, and high-risk human populations, as a crucially important step to minimize future pandemic influenza.
|URI:||https://scholars.lib.ntu.edu.tw/handle/123456789/453358||ISSN:||00052086||DOI:||10.1637/11168-051915-Reg||SDG/Keyword:||animal; chicken; classification; duck; epidemic; genetics; goose; Influenza A virus; Influenza in Birds; isolation and purification; phylogeny; Poultry Diseases; Taiwan; virology; wild animal; Animals; Animals, Wild; Chickens; Disease Outbreaks; Ducks; Geese; Influenza A virus; Influenza in Birds; Phylogeny; Poultry Diseases; Taiwan
|Appears in Collections:||生態學與演化生物學研究所|
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