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Australian surveillance for avian influenza viruses in wild birds between July 2005 and June 2007 总被引:1,自引:1,他引:0
L Haynes E Arzey C Bell N Buchanan G Burgess V Cronan C Dickason H Field S Gibbs PM Hansbro T Hollingsworth AC Hurt P Kirkland H McCracken J O'Connor J Tracey J Wallner S Warner R Woods C Bunn 《Australian veterinary journal》2009,87(7):266-272
Objective To identify and gain an understanding of the influenza viruses circulating in wild birds in Australia.
Design A total of 16,303 swabs and 3782 blood samples were collected and analysed for avian influenza (AI) viruses from 16,420 wild birds in Australia between July 2005 and June 2007. Anseriformes and Charadriiformes were primarily targeted.
Procedures Cloacal, oropharyngeal and faecal (environmental) swabs were tested using polymerase chain reaction (PCR) for the AI type A matrix gene. Positive samples underwent virus culture and subtyping. Serum samples were analysed using a blocking enzyme-linked immunosorbent assay for influenza A virus nucleoprotein.
Results No highly pathogenic AI viruses were identified. However, 164 PCR tests were positive for the AI type A matrix gene, 46 of which were identified to subtype. A total of five viruses were isolated, three of which had a corresponding positive PCR and subtype identification (H3N8, H4N6, H7N6). Low pathogenic AI H5 and/or H7 was present in wild birds in New South Wales, Tasmania, Victoria and Western Australia. Antibodies to influenza A were also detected in 15.0% of the birds sampled.
Conclusions Although low pathogenic AI virus subtypes are currently circulating in Australia, their prevalence is low (1.0% positive PCR). Surveillance activities for AI in wild birds should be continued to provide further epidemiological information about circulating viruses and to identify any changes in subtype prevalence. 相似文献
Design A total of 16,303 swabs and 3782 blood samples were collected and analysed for avian influenza (AI) viruses from 16,420 wild birds in Australia between July 2005 and June 2007. Anseriformes and Charadriiformes were primarily targeted.
Procedures Cloacal, oropharyngeal and faecal (environmental) swabs were tested using polymerase chain reaction (PCR) for the AI type A matrix gene. Positive samples underwent virus culture and subtyping. Serum samples were analysed using a blocking enzyme-linked immunosorbent assay for influenza A virus nucleoprotein.
Results No highly pathogenic AI viruses were identified. However, 164 PCR tests were positive for the AI type A matrix gene, 46 of which were identified to subtype. A total of five viruses were isolated, three of which had a corresponding positive PCR and subtype identification (H3N8, H4N6, H7N6). Low pathogenic AI H5 and/or H7 was present in wild birds in New South Wales, Tasmania, Victoria and Western Australia. Antibodies to influenza A were also detected in 15.0% of the birds sampled.
Conclusions Although low pathogenic AI virus subtypes are currently circulating in Australia, their prevalence is low (1.0% positive PCR). Surveillance activities for AI in wild birds should be continued to provide further epidemiological information about circulating viruses and to identify any changes in subtype prevalence. 相似文献
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Njouom R Aubin JT Bella AL Demsa BM Rouquet P Gake B Ngangnou A Foupouapouognigni Y Van Der Werf S Rocourt J Rousset D 《Veterinary microbiology》2008,130(3-4):380-384
Highly pathogenic avian influenza (HPAI) virus was first detected in Cameroon in February 2006. Analysis of NA sequences of the virus demonstrated that it is closely related to the H5N1 isolates from Northern Nigeria, Sudan and Ivory Coast, suggesting a common virus ancestor. 相似文献
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This paper describes the first threats of H5N1 avian influenza outbreaks in Egypt recorded from February to December 2006 in commercial and domestic poultry from different species and summarizes the major characteristics of the outbreak. There were 1024 cases from different poultry species (rural and commercial chickens of different breeding types, turkeys, ducks, geese, and quail) either in commercial breeding or in backyards from different locations in Egypt. All tested positive for the H5N1 subtype. From these cases only 12 avian influenza A viruses were isolated and characterized from samples collected during outbreaks. All isolates were characterized, and the data confirmed that the isolated viruses belong to highly pathogenic avian influenza of subtype H5N1. Full hemagglutinin (HA) gene (segment 4) sequencing was also done, and the sequences of these isolates were compared with other strains from Russia, Africa, and the Middle East. The data revealed that all Egyptian strains were very closely related and belonging to subclade 2.2 of the H5N1 virus of Eurasian origin, the same one circulating in the Middle East region and introduced into Africa at the beginning of 2006. This study showed evidence of the wide spread of H5N1 virus infection in domestic poultry in Egypt within a short time. The most obvious features of these outbreaks were severe clinical signs and high mortalities as well as very rapid and widespread occurrence within the country in a very short time. The possible causes of its rapid spread and prospects of disease control are discussed. 相似文献
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Poultry farmers faced dual risk when mutant avian influenza (AI) virus showed the zoonotic characteristics. A/H5N1 and A/H7N9 were two dominant AI virus strains that have captured the attention of the public over the years for they have been reported to bring about greater loss to poultry and human, respectively. Previous studies mainly used quantitative methods investigating either the means that poultry farmers adopted for protecting their poultry against A/H5N1 infection or the poultry farmers' self‐protective behaviours against A/H7N9 infection. We sought insights into the underlying factors influencing Chinese poultry farmers' protective behaviours in response to the dual risk of AI by a qualitative way. Semi‐structured in‐depth interviews were conducted with 25 Chinese chicken farmers recruited by purposive sampling between November 2016 and May 2017, the peak season of AI. All interviews were audio‐taped, transcribed and analysed using a grounded theory approach. From participants' experiences, we revealed five main themes: Measures adopted for protecting poultry and farmers, Emotional response to the AI epidemic, Perceived risk of AI, Perceived effectiveness of the preventive measures adopted and Perceived self‐efficacy to take preventive measures. The information of AI outbreak directly triggered Chinese chicken farmers' emotional response and thereafter preventive actions. Compared to the perceived risk of poultry infection with A/H5N1 which mainly connected to economic loss, participants perceived much lower risk of human infection with A/H7N9. AI epidemic information played a key role triggering poultry farmers' response behaviours. Chinese poultry farmers weighted more attention on the risk of poultry infection which was highly associated with economic losses. The government should build and improve an early AI warning and information transmission network to poultry farmers. Further reinforcement of related self‐protective and preventive knowledge training towards poultry farmers is necessary. 相似文献
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Takakuwa H Yamashiro T Le MQ Phuong LS Ozaki H Tsunekuni R Usui T Ito H Morimatsu M Tomioka Y Yamaguchi T Ito T Murase T Ono E Otsuki K 《Preventive veterinary medicine》2012,103(2-3):192-200
Repeated epizootics of highly pathogenic avian influenza (HPAI) virus subtype H5N1 were reported from 2003 to 2005 among poultry in Vietnam. More than 200 million birds were killed to control the spread of the disease. Human cases of H5N1 infection have been sporadically reported in an area where repeated H5N1 outbreaks among birds had occurred. Subtype H5N1 strains are established as endemic among poultry in Vietnam, however, insights into how avian influenza viruses including the H5N1 subtype are maintained in endemic areas is not clear. In order to determine the prevalence of different avian influenza viruses (AIVs), including H5N1 circulating among poultry in northern Vietnam, surveillance was conducted during the years 2006-2009. A subtype H5N1 strain was isolated from an apparently healthy duck reared on a farm in northern Vietnam in 2008 and was identified as an HPAI. Although only one H5N1 virus was isolated, it supports the view that healthy domestic ducks play a pivotal role in maintaining and transmitting H5N1 viruses which cause disease outbreaks in northern Vietnam. In addition, a total of 26 AIVs with low pathogenicity were isolated from poultry and phylogenetic analysis of all the eight gene segments revealed their diverse genetical backgrounds, implying that reassortments have occurred frequently among strains in northern Vietnam. It is, therefore, important to monitor the prevalence of influenza viruses among healthy poultry between epidemics in an area where AIVs are endemic. 相似文献
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Rutz C Dalessi S Baumer A Kestenholz M Engels M Hoop R 《Schweizer Archiv für Tierheilkunde》2007,149(11):501-509
During various surveillance programs more than 3500 cloacal swabs and organ samples from songbirds, waterbirds and poultry have been tested for avian influenza using real time RT-PCR. Switzerland carried out the first wildbird monitoring between autumn 2003 and spring 2005. 1053 samples, mostly from songbirds, were tested. LPAI-strains were found in two cases. A second intensified surveillance program started in October 2005 along with the first ban on free range poultry farming. Until the end of April 2006 2455 cloacal swabs from dead wildbirds have been analysed. By the end of february H5N1 was for the first time detected in Switzerland and by the end of march 32 waterbirds have been found positive for H5N1. 146 poultry flocks with a special permission for free range management proved to be AI negative. 相似文献
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中国H5N1亚型高致病性禽流感病毒抗原变异株的鉴定分析 总被引:2,自引:0,他引:2
对引起中国2006年山西、宁夏2省(区)H5N1亚型禽流感疫情的代表毒株——A/chicken/Shanxi/2/2006(H5N1)(CK/SX/06)进行了全面研究。结果表明该病毒具有高致病性禽流感病毒(HPAIV)特征,基因组序列分析发现其8个基因片段与中国传统H5N1亚型禽流感病毒GS/GD/1/96(H5N1)存在较大差异,属于新的基因型——山西鸡型;抗原性分析结果表明其在抗原性方面与GS/GD/1/96同样存在较大变异,将其命名为"山西鸡型"抗原变异株;以106EID50.0.1 mL-1剂量将该病毒经鼻腔接种4周龄SPF鸭以评价其对水禽的感染能力,结果表明其不感染鸭;常规方法接种BALB/c小鼠以评价其对哺乳动物的感染和致病能力,结果表明其能感染小鼠,但不引起死亡,呈低致病力。说明该类型高致病性H5N1 HPAIV目前仅危害鸡,不具备感染水禽的能力,感染哺乳动物但不致死。该类型病毒的出现与流行为中国禽流感的免疫与防制提出新的课题。 相似文献
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IJ East C Ainsworth S Warner M Dunowska JK Azuolas 《Australian veterinary journal》2010,88(8):290-293
Background Since 2005, H5N1 avian influenza (AI) has spread from South-East Asia to over 60 different countries, resulting in the direct death or slaughter of over 250,000,000 poultry. Migratory waterfowl have been implicated in this spread and in Australia there have been numerous isolations of low-pathogenicity AI virus from wild waterfowl and shorebirds. The Department of Human Services, Victoria maintains 10 sentinel free-range chicken flocks in the Riverland at locations that are populated by large numbers of waterfowl known to carry a range of strains of AI. Objective This study analysed historical samples collected in 1991–94 and 2003–06 from the library of serum samples for antibodies against AI to assess the potential for transfer of AI virus from wild waterfowl to free-range poultry. Results Of the 2000 serum samples analysed, 17 were positive for antibodies against AI and 87 were suspect, with a clustering of positive and suspect results in the years 1994, 2003 and 2004. There was also a clustering of positive samples at the site of the Barmah flock. Nine sequential sets of sera from individual chickens with at least one positive result were identified. Analysis of these sequential sets showed that infection was acquired on site but that the antibody response to AI infection was short-lived and was no longer detectable at 8 weeks after the positive finding. Conclusion The surveillance of sentinel chickens is a potential avenue for monitoring the circulation of AI viruses and could provide an early warning system for the commercial poultry industries. 相似文献
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Brunhart I Baumer A Reist M Stärk K Griot C 《Schweizer Archiv für Tierheilkunde》2010,152(11):507-513
When highly pathogenic avian influenza H5N1 (HPAI H5N1) arrived at Lake Constance in February 2006, little was known about its ecology and epidemiology in wild birds. In order to prevent virus transmission from wild birds to poultry, the adjacent countries initiated the tri-national, interdisciplinary research program ?Constanze? to investigate avian influenza infections in water birds at Lake Constance. In collaboration with government agencies scientists examined the prevalence of AI virus in the region of Lake Constance for a period of 33 months, compared the effectiveness of different surveillance methods and analysed the migration behaviour of water birds. Although virus introduction from regions as far as the Ural Mountains seemed possible based on the migration behaviour of certain species, no influenza A viruses of the highly pathogenic subtype H5N1 (HPAIV) was found. However, influenza A viruses of different low pathogenic subtypes were isolated in 2.2 % of the sampled birds (swabs). Of the different surveillance methods utilised in the program the sampling of so called sentinel birds was particularly efficient. 相似文献
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Yamamoto Y Nakamura K Yamada M Mase M 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》2012,74(2):205-208
An experimental infection study was performed using pigeons reared for racing or meat production in Japan and clade 2.2 and 2.3.2 isolates of H5N1 highly pathogenic avian influenza virus to evaluate the possible role of pigeons in virus transmission to poultry. In experiment 1, when 20 pigeons were intranasally inoculated with high or low viral doses, no inoculated pigeon exhibited clinical signs for 14 days. Drinking water and almost all swab samples were negative for virus isolation. Virus isolation was positive in 3 oral swab samples from 2 pigeons from day 2 through 4 postinoculation, but viral titers of positive samples were extremely low. Immunohistochemical analysis for virus detection was negative in all tissue samples. Along with seroconversion in a limited number of pigeons postinoculation, these results suggest that pigeons have limited susceptibility to the virus used for experimental infection. In experiment 2, when uninoculated chickens were housed with virus-inoculated pigeons, all pigeons and contact chickens survived for 14 days without exhibiting any clinical signs. According to serological analysis, the chickens did not exhibit seroconversion after close contact with inoculated pigeons. Our data suggest that the risk posed by pigeons with respect to the transmission of the H5N1 highly pathogenic avian influenza virus to poultry would be less than that for other susceptible avian species. 相似文献
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从福州市某活禽市场采集的鸡泄殖腔棉拭子样品中分离出1株病毒,经血凝抑制试验(HI)和聚合酶链反应(PCR)方法鉴定为H9N2亚型禽流感病毒。在GenBank基因库中对该病毒株的3个基因片段的测序结果进行BLAST比对分析表明,3个基因片段均属于H9N2亚型禽流感病毒的基因。HA基因遗传进化分析表明,该病毒分离株与代表株DK/HK/Y280/97处于同一分支,与上海的鸡源分离株A/chicken/Shanghai/06/2015(H9N2)同源性最高,同源性为99.5%。 相似文献
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《Veterinary microbiology》2015,175(2-4):369-373
From January 2010 to January 2012, we collected sera samples from 700 stray cats living in close proximity to poultry farms or poultry markets in 4 provinces in China. A number of cats had evidence of avian and canine influenza virus infection: avian H9N2 [24 by HI ≥1:20 and 16 by microneutralization (MN) assay ≥1:80]; avian H5N1 (9 by HI ≥1:20 and 3 by MN assay ≥1:80) and canine H3N2 (32 by HI ≥1:20 and 18 by MN ≥1:80). Bivariate analyses revealed that cats sampled near live poultry markets and cats with influenza-like-illness were at increased risk of having elevated antibody titers by HI against avian H9N2, avian H5N1, or canine H3N2 viruses. Hence, cats may play a very important role in the ecology of novel influenza viruses and periodic epidemiological surveillance for novel influenza infections among stray cats could serve as an early warning system for human threats. 相似文献
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Avian Influenza (AI), caused by Alphainfluenzaviruses (AIVs), is a contagious respiratory disease in birds and mammals. AIVs have been reported in poultry worldwide and the impact of AIVs on human health is immense. In this study, a serological survey of AIV subtype H5 and H9 was conducted in a live bird market (LBM) in Yangon, Myanmar during February 2016 to September 2016. A total of 621 serum samples were collected from chickens (n = 489) and ducks (n = 132) from 48 vendors in the LBM. The samples were examined for antibodies against influenza viruses by using NP-ELISA and specific antibodies against AIV-H5N1 (Clade 2.3.4) and AIV-H9N2 (Clade 9.4.2) by using Hemagglutination Inhibition (HI) assay. The result of NP-ELISA assay showed that 12.88 % (80/621) of poultry in LBM was positive for AIV antibodies. In detail, 38.06 % (51/134) of layers, 7.08 % (8/113) of backyard chicken, 2.07 % (5/242) of broilers and 12.12 % (16/132) of ducks were AIV positive. The HI test for specific antibodies against AIV-H5N1 and AIV-H9N2 were 1.77 % (11/621) and 4.51 % (28/621), respectively. Our findings revealed the evidence of AIV-H5N1 and AIV-H9N2 exposure in both chicken and ducks in the LBM in Yangon, Myanmar. Risks of influenza infections and transmission among poultry and humans in the LBMs could not be ignored. 相似文献
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H9亚型禽流感在我国家禽中广泛流行,给养禽业造成巨大经济损失的同时,也严重威胁着公共卫生安全。H9亚型禽流感病毒(avian influenza virus,AIV)具有高度遗传变异性,导致流行株和疫苗株之间抗原匹配性差,从而影响疫苗的临床保护效果,急需研发一种高效、具有交叉保护性的通用型H9亚型禽流感疫苗。马赛克疫苗是针对遗传多样性病原体设计,通过整合所有抗原序列获得一条抗原表位覆盖最广泛的嵌合蛋白,并制备疫苗。本研究参考mosaic疫苗设计原则,设计、优化并合成了一条H9亚型禽流感病毒的mosaic血凝素(hemagglutinin,HA)基因序列,采用反向遗传操作技术,以H1N1亚型流感病毒PR8株为骨架,以mosaic H9HA序列替换PR8株的HA片段,获得重组病毒rPR8-HAm/H9。将其制备为灭活疫苗并免疫SPF雏鸡,监测抗体水平、攻毒保护效果,评价其交叉保护效果。结果表明,重组病毒rPR8-HAm/H9灭活疫苗免疫SPF雏鸡,可诱导机体产生较高水平的HI抗体和中和抗体,可显著抑制攻毒后病毒的脱落,对H9N2 AIV JM0305株的攻毒保护率为80%。rPR8-HAm/H9灭活疫苗可以对异源H9N2 AIV JM0305株产生较好的交叉攻毒保护,为研发基于马赛克技术的禽流感通用疫苗提供了前期基础。 相似文献