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1.
The Influenza Pandemic (H1N1/09) virus was first reported in humans in Mexico in April 2009 and a pandemic level was declared on 11th of June 2009 by the World Health Organization (Chan, 2009; WHO, 2009a). Public misconceptions about the transmission of H1N1/09 were caused by the inadequate naming of the disease as 'swine influenza'. This cross-sectional study was conducted at the height of the outbreak in the Australian human population and before the virus was reported in the first piggery in Australia in July 2009 (OIE, 2009b; Holyoake et al., 2011). The aims of this study were to evaluate pig producers' perceptions about the virus and the outbreak financial impact and influence on on-farm biosecurity practices. A questionnaire was designed and posted to Australian Pork Limited (APL) members (n=460), obtaining responses from 182 producers (39.6%). Pig producers had good general knowledge on potential transmission pathways for H1N1/09 between people, with direct or close contact with a sick person perceived as the most likely pathways. Changes on biosecurity practices, such as asking visitors if they had recently been overseas (27.8%) and not allowing any visitor to inspect their pigs (18.3%), were reported among respondents. In addition, approximately 40% of producers asked their employees to notify flu like symptoms, consulted a veterinarian on H1N1/09 and visited websites to seek information on H1N1/09. A higher adoption of these practices was observed among large (>100 sows) than small herds. Only 2.9% of respondents reported a reduction in pig sales during the outbreak. However, approximately one third of producers reported being financially and emotionally stressed, 38.2% were distressed about the health of their pigs and 16.7% about their own health. The most important sources of information were APL (93%), veterinarians (89%) and the state Department of Primary Industries (DPI) (75%). The first two considered the most trusted sources of information. Television, radio and other farmers were considered more important sources of information by small herds and veterinarians by larger herds. Producers believed that the H1N1/09 outbreak was better managed by the pork industry (89.9%) than by the health authorities (58.8%), and the on-going communication with APL was the main strength of the outbreak management. Communication and extension programs in future outbreaks should consider the needs of all sectors of the pig industry to increase their effectiveness. 相似文献
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Yipeng Sun Ye Shen Xuxiao Zhang Qian Wang Linqing Liu Xue Han Bo Jiang Ran Wang Honglei Sun Juan Pu Degui Lin Zhaofei Xia Jinhua Liu 《Veterinary microbiology》2014
Influenza viruses have been isolated from dogs in China; however, the extent of influenza infection among dogs is not yet clear. Here, we examined the seroprevalence of avian-origin canine H3N2, pandemic H1N1/09 and human seasonal H3N2 influenza viruses in pet dogs in China during January 2012 to June 2013. The seropositivity rate of canine H3N2, H1N1/09 and human H3N2 were 3.5%, 1.5%, and 1.2%, respectively. Dogs aged 2–5 years were most commonly seropositive to canine H3N2 virus. It is worth noting that two serum samples were positive against both canine H3N2 and H1N1/09 viruses, suggesting the possibility of coinfection with both viruses. Our findings emphasize the necessity for continued surveillance of influenza viruses in dogs in China. 相似文献
3.
This article examines the perceptions of individuals toward protecting animals from hunting. Researchers surveyed 825 U.S. residents in an online survey about their views of whether 17 species of mammals should be protected from hunting. Over 85% of respondents believed elephant, white rhino, black rhino, hippo, leopard, lion, and polar bear species should be protected from hunting. Conversely, only 55% of respondents believed mountain lion and coyote should be protected. Cross tabulations and logit analysis were employed to explore relationships between believing an animal species should be protected from hunting and demographics. Older and female respondents more often agreed that species should be protected from hunting. Those who hunted or knew a hunter less frequently agreed that the species surveyed should be protected from hunting. Demographics and previous exposure to hunting appear to influence beliefs about what species should be protected from hunting. 相似文献
4.
SM Williamson CA Bidewell AW Tucker IS McCrone JL Wood N Brons H Habernoll SC Essen IH Brown;COSI Combating Swine Influenza Wellcome Trust-MRC-BBSRC-Defra UK consortium 《The Veterinary record》2012,171(11):271
Infection of pigs with influenza A H1N1 2009 virus (A(H1N1)pdm09) was first detected in England in November 2009 following global spread of the virus in the human population. This paper describes clinical and epidemiological findings in the first English pig farms in which A(H1N1)pdm09 influenza virus was detected. These farms showed differences in disease presentation, spread and duration of infection. The factors likely to influence these features are described and relate to whether pigs were housed or outdoors, the age of the pigs, inter-current disease and the management system of the unit. Infection could be mild or clinically inapparent in breeding pigs with more typical respiratory disease being identified later in their progeny. Mortality was low where disease was uncomplicated by environmental stresses or concurrent infections. Where deaths occurred in pigs infected with A(H1N1)pdm09 influenza, they were mainly due to other infections, including streptococcal disease due to Streptococcus suis infection. This paper demonstrates the ease with which A(H1N1)pdm09 virus was transmitted horizontally and maintained in a pig population. 相似文献
5.
A. M. Damiani D. Kalthoff M. Beer E. Müller N. Osterrieder 《Zoonoses and public health》2012,59(8):549-552
A serological survey for the detection of antibodies to influenza A(H1N1)pdm09 was carried out in a population of dogs and cats in Germany. A total of 1150 sera collected in 2010 and 2011 were screened using an ELISA targeting anti‐nucleoprotein NP antibodies. Those initially screened positive samples were subsequently tested for antibodies to N1 neuraminidase followed by a virus neutralization test using A/Bayern/74/2009 strain. A prevalence of A(H1N1)pdm09‐specific antibodies of 0.13% and 1.93% was estimated among dogs and cats, respectively. Evidence of exposure to other influenza A virus subtypes was also observed. 相似文献
6.
Yang H Chen Y Shi J Guo J Xin X Zhang J Wang D Shu Y Qiao C Chen H 《Veterinary microbiology》2011,152(3-4):229-234
Influenza A (H1N1) virus has caused human influenza outbreaks in a worldwide pandemic since April 2009. Pigs have been found to be susceptible to this influenza virus under experimental and natural conditions, raising concern about their potential role in the pandemic spread of the virus. In this study, we generated a high-growth reassortant virus (SC/PR8) that contains the hemagglutinin (HA) and neuraminidase (NA) genes from a novel H1N1 isolate, A/Sichuan/1/2009 (SC/09), and six internal genes from A/Puerto Rico/8/34 (PR8) virus, by genetic reassortment. The immunogenicity and protective efficacy of this reassortant virus were evaluated at different doses in a challenge model using a homologous SC/09 or heterologous A/Swine/Guangdong/1/06(H1N2) virus (GD/06). Two doses of SC/PR8 virus vaccine elicited high-titer serum hemagglutination inhibiting (HI) antibodies specific for the 2009 H1N1 virus and conferred complete protection against challenge with either SC/09 or GD/06 virus, with reduced lung lesions and viral shedding in vaccine-inoculated animals compared with non-vaccinated control animals. These results indicated for the first time that a high-growth SC/PR8 reassortant H1N1 virus exhibits properties that are desirable to be a promising vaccine candidate for use in swine in the event of a pandemic H1N1 influenza. 相似文献
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Natalha Biondo Rejane Schaefer Danielle Gava Mauricio E. Cantão Simone Silveira Marcos A.Z. Mores Janice R. Ciacci-Zanella David E.S.N. Barcellos 《Veterinary microbiology》2014
Influenza is a viral disease that affects human and several animal species. In Brazil, H1N1, H3N2 and 2009 pandemic H1N1 A(H1N1)pdm09 influenza A viruses (IAV) circulate in domestic swine herds. Wild boars are also susceptible to IAV infection but in Brazil until this moment there are no reports of IAV infection in wild boars or in captive wild boars populations. Herein the occurrence of IAV in captive wild boars with the presence of lung consolidation lesions during slaughter was investigated. Lung samples were screened by RT-PCR for IAV detection. IAV positive samples were further analyzed by quantitative real-time PCR (qRRT-PCR), virus isolation, genomic sequencing, histopathology and immunohistochemistry (IHC). Eleven out of 60 lungs (18.3%) were positive for IAV by RT-PCR and seven out of the eleven were also positive for A(H1N1)pdm09 by qRRT-PCR. Chronic diffuse bronchopneumonia was observed in all samples and IHC analysis was negative for influenza A antigen. Full genes segments of H1N2 IAV were sequenced using Illumina's genome analyzer platform (MiSeq). The genomic analysis revealed that the HA and NA genes clustered with IAVs of the human lineage and the six internal genes were derived from the H1N1pdm09 IAV. This is the first report of a reassortant human-like H1N2 influenza virus infection in captive wild boars in Brazil and indicates the need to monitor IAV evolution in Suidae populations. 相似文献
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Detection of Novel Reassortant Influenza A (H3N2) and H1N1 2009 Pandemic Viruses in Swine in Hanoi,Vietnam 
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下载免费PDF全文 T. D. Dao N. T. Pham B. J. Cowling M. Peyre M. Peiris 《Zoonoses and public health》2015,62(6):429-434
From May to September 2013, monthly samples were collected from swine in a Vietnamese slaughterhouse for influenza virus isolation and serological testing. A(H1N1)pdm09 viruses and a novel H3N2 originating from reassortment between A(H1N1)pdm09 and novel viruses of the North American triple reassortant lineage were isolated. Serological results showed low seroprevalence for the novel H3N2 virus and higher seroprevalence for A(H1N1)pdm09 viruses. In addition, serology suggested that other swine influenza viruses are also circulating in Vietnamese swine. 相似文献
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为了解华南地区猪群中猪流感病毒(SIV)的流行及其遗传变异情况,本研究从2016年~2017年广东、广西等地猪群236份猪肺脏病料组织和143份鼻拭子样品中分离鉴定得到3株SIV,全基因组测序和遗传演化分析结果显示,3个分离株均属于H1N1亚型欧亚类禽分支SIV,并且均与pdm09分支病毒株发生了重组。HA蛋白分子特征分析结果显示,A/Swine/Guangxi/NK/2016 HA蛋白第23位糖基化位点发生了缺失。3265份血清样品抗体监测结果显示,欧亚类禽H1N1、pdm09 H1N1和H3N2 SIV的血清抗体阳性率分别为27.53%、20.98%和34.85%。另外,0.64%的(21份)血清样品为H9N2亚型流感病毒抗体阳性,并且猪群中不同亚型和不同分支SIV之间混合感染的情况非常普遍。猪群中流感病毒血清抗体监测结果显示,EA H1N1、pdm09和H3N2亚型SIV HI抗体滴度最高均可达到1:1280,而H9N2亚型HI抗体滴度最高为1:160,表明H9N2 AIV虽然可以感染猪,但对猪还不适应。各月份的血清抗体阳性率分析显示,SIV的流行具有季节性,冬季(11月、12月和1月份)的流行最为严重。本研究可为华南地区猪群SI防控及疫苗株的筛选提供参考依据。 相似文献
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Glenda M. Bingham Christine M. Budke Margaret R. Slater 《Preventive veterinary medicine》2010,93(2-3):211-221
In order to assess the knowledge and perceptions of dog-associated zoonoses in Brazos County, Texas, random digit dialing was used to select 922 households for participation in a cross-sectional telephone survey. The interviews were completed during June 2008 and yielded a response rate of 55% (922/1691). Fifty-six percent of the respondents who completed the questionnaire owned dogs. Eighty-six percent of the respondents indicated they would report being bitten by a dog that they did not own. Five factors were shown to be significantly associated with such reporting. Those respondents who believed that rabies could be transmitted by bats were 5.5 times more likely (95% CI: 1.6, 18.6) to report a dog bite compared to people who did not hold this belief. Respondents who would seek emergency treatment if they believed they had been exposed to rabies were 3.1 times more likely to report a bite (95% CI: 1.8, 5.4). Those who were over 60 years of age were 2.3 times more likely (95% CI: 1.2, 4.4) to report being bitten when compared to respondents who were under the age of 60. Living inside the city limits also increased the chance that the respondent would report being bitten by a dog (OR 2.3, 95% CI: 1.4, 3.9). Females were 2.3 times more likely (95% CI: 1.3, 3.7) to report being bitten than their male counterparts. Dog ownership did not have a significant impact on reporting. Only 85% of respondents stated that they would seek emergency treatment if they believed that they may have been exposed to rabies. In addition, only 59% of respondents were aware that exposure to rabies without treatment could lead to death. While 98% of respondents had heard of rabies and knew that it was possible to get it from a dog, only 54% of respondents knew that worms could be transmitted from dogs to people. This study demonstrated that many people surveyed lacked knowledge about dog-associated zoonotic diseases, which could seriously impact their health and the health of their families. It is important to find a method of getting information out to the public in order to correct this deficiency. 相似文献
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Ann P. Britton Melissa Trapp Suzana Sabaiduc William Hsiao Tomy Joseph Helen Schwantje 《Zoonoses and public health》2019,66(4):422-427
Striped skunks (skunks) are susceptible to respiratory infection by influenza A viruses (IAV). As they are common synanthropes, maintenance of IAV in skunks could provide a source of infection for humans. We previously studied the nasal turbinates, lungs and faeces of 50 free‐ranging skunks for the presence of IAV and identified two individuals with influenza A(H1N1)pdm09 infection during the 2009/2010 and 2013/2014 flu seasons. Subsequent to publication of that study, ferrets were shown to preferentially replicate and harbour A(H1N1)pdm09 in the soft palate, a site which had not been investigated in the skunks. From March 2015 to May 2016, we surveyed a convenience sample of 80 free‐ranging urban skunks for IAV in soft palate, nasal turbinates and lungs. The newly emergent influenza A(H1N1)pdm09 clade 6B.1 was detected at all three sites in one skunk with acute rhinitis in February 2016. Clade 6B.1 was the dominant clade in circulation during the 2015/2016 flu season. As the skunk was detected at the height of flu season, reverse zoonosis was considered the most probable source of infection. 相似文献
13.
Tiina Nokireki Taina Laine Laura London Niina Ikonen Anita Huovilainen 《Acta veterinaria Scandinavica》2013,55(1):69
Background
Swine influenza is an infectious acute respiratory disease of pigs caused by influenza A virus. We investigated the time of entry of swine influenza into the Finnish pig population. We also describe the molecular detection of two types of influenza A (H1N1) viruses in porcine samples submitted in 2009 and 2010.This retrospective study was based on three categories of samples: blood samples collected for disease monitoring from pigs at major slaughterhouses from 2007 to 2009; blood samples from pigs in farms with a special health status taken in 2008 and 2009; and diagnostic blood samples from pigs in farms with clinical signs of respiratory disease in 2008 and 2009. The blood samples were tested for influenza A antibodies with an antibody ELISA. Positive samples were further analyzed for H1N1, H3N2, and H1N2 antibodies with a hemagglutination inhibition test. Diagnostic samples for virus detection were subjected to influenza A M-gene-specific real-time RT-PCR and to pandemic influenza A H1N1-specific real-time RT-PCR. Positive samples were further analyzed with RT-PCRs designed for this purpose, and the PCR products were sequenced and sequences analyzed phylogenetically.Results
In the blood samples from pigs in special health class farms producing replacement animals and in diagnostic blood samples, the first serologically positive samples originated from the period July–August 2008. In samples collected for disease monitoring, < 0.1%, 0% and 16% were positive for antibodies against influenza A H1N1 in the HI test in 2007, 2008, and 2009, respectively. Swine influenza A virus of avian-like H1N1 was first detected in diagnostic samples in February 2009. In 2009 and 2010, the avian-like H1N1 virus was detected on 12 and two farms, respectively. The pandemic H1N1 virus (A(H1N1)pdm09) was detected on one pig farm in 2009 and on two farms in 2010.Conclusions
Based on our study, swine influenza of avian-like H1N1 virus was introduced into the Finnish pig population in 2008 and A(H1N1)pdm09 virus in 2009. The source of avian-like H1N1 infection could not be determined. Cases of pandemic H1N1 in pigs coincided with the period when the A(H1N1)pdm09 virus was spread in humans in Finland. 相似文献14.
Although the highly pathogenic avian influenza H5N1 virus continues to cause infections in both avian and human populations, the specific zoonotic risk factors remain poorly understood. This review summarizes available evidence regarding types of contact associated with transmission of H5N1 virus at the human–animal interface. A systematic search of the published literature revealed five analytical studies and 15 case reports describing avian influenza transmission from animals to humans for further review. Risk factors identified in analytical studies were compared, and World Health Organization‐confirmed cases, identified in case reports, were classified according to type of contact reported using a standardized algorithm. Although cases were primarily associated with direct contact with sick/unexpectedly dead birds, some cases reported only indirect contact with birds or contaminated environments or contact with apparently healthy birds. Specific types of contacts or activities leading to exposure could not be determined from data available in the publications reviewed. These results support previous reports that direct contact with sick birds is not the only means of human exposure to avian influenza H5N1 virus. To target public health measures and disease awareness messaging for reducing the risk of zoonotic infection with avian influenza H5N1 virus, the specific types of contacts and activities leading to transmission need to be further understood. The role of environmental virus persistence, shedding of virus by asymptomatic poultry and disease pathophysiology in different avian species relative to human zoonotic risk, as well as specific modes of zoonotic transmission, should be determined. 相似文献
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Jacqueline M. Nolting Scott D. Scheer Andrew S. Bowman 《Zoonoses and public health》2019,66(4):401-405
Since 2011, there have been 468 cases of variant influenza A virus (IAV) reported in the United States, many of which were associated with youth swine exhibition. In an effort to mitigate risk associated with exposure to IAV in swine, the “Measures to Minimize Influenza Transmission at Swine Exhibitions” (MtM) was developed for show organizers, volunteers and exhibitors. These recommendations are updated annually; however, it is not clear if youth swine exhibitors are aware of the recommendations; support the recommendations; and would be willing to practise recommended behaviours. Therefore, a cross‐sectional survey method was used to assess swine exhibitor perceptions and their adoption of swine production practices aimed at reducing the transmission of IAV at the human–animal interface. In addition, the survey asked participants their state of residence and the number of shows they would attend in 2017. In all, 155 participants who showed swine on a regular basis (x? = 11 shows per year), from at least 18 states within the US, completed the survey. At least, 67% of participants believed each statement was a good recommendation, with 6 of 11 recommendations being supported by >90% of participants. When asked if recommendations could be implemented, 65%–94% of respondents agreed, and 21%–89% of participants had already implemented each recommendation, respectively. Although significant efforts have been made to increase signage at swine exhibitions (warning of risks associated with eating/drinking in animal areas), a majority of respondents report eating/drinking in the barn and are unwilling to change their behaviours. This study provides evidence that developing and disseminating static recommendations to reduce zoonotic disease transmission is not enough to change human behaviour to prevent future variant IAV infections associated with swine exhibitions. 相似文献
16.
旨在了解河南省猪流感病毒的流行情况及其遗传进化和基因组特征。2018年4月,从河南省某一出现疑似流感症状猪群中采集鼻拭子样品150份用于分离病毒,对分离病毒的全基因组进行序列测定和分析。同时感染6周龄BALB/c小鼠,研究其对小鼠的致病性。结果显示,获得1株H1N1亚型病毒[命名为A/swine/Henan/NY20/2018(H1N1)]。遗传进化表明,其HA和NA基因属于欧亚类禽H1N1分支,PB2、PB1、PA、NP和M基因属于2009甲型H1N1分支,NS基因属于经典H1N1分支。HA蛋白的裂解位点序列为PSIQSR↓GL,具有低致病性流感病毒的分子特征,在小鼠肺和鼻甲有效复制并能引起肺组织病理学变化。本研究分离到1株3源重排H1N1亚型病毒,对小鼠呈现一定致病力,提示应进一步加强对SIV的监测。 相似文献
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M. L. Killian S. L. Swenson A. L. Vincent J. G. Landgraf B. Shu S. Lindstrom X. Xu A. Klimov Y. Zhang A. S. Bowman 《Zoonoses and public health》2013,60(3):196-201
Influenza‐like illness was noted in people and pigs in attendance at an Ohio county fair in August 2007. The morbidity rate in swine approached 100% within 1–2 days of initial clinical signs being recognized, and approximately two dozen people developed influenza‐like illness. Triple‐reassortant swine H1N1 influenza viruses were identified in both pigs and people at the fair. The identified viruses (A/Sw/OH/511445/2007, A/Ohio/01/2007, and A/Ohio/02/2007) were similar to H1N1 swine influenza viruses currently found in the U.S. swine population. This case illustrates the possibility of transmission of swine influenza in settings where there is close human/swine interaction. 相似文献
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Matilda Ayim‐Akonor Eva Mertens Jürgen May Timm Harder 《Zoonoses and public health》2020,67(6):697-707
Influenza A viruses (IAVs) have both zoonotic and anthroponotic potential and are of public and veterinary importance. Swine are intermediate hosts and ‘mixing vessels’ for generating reassortants, progenies of which may harbour pandemic propensity. Swine handlers are at the highest risk of becoming infected with IAVs from swine but there is little information on the ecology of IAVs at the human–animal interface in Africa. We analysed and characterized nasal and throat swabs from swine and farmers respectively, for IAVs using RT‐qPCR, from swine farms in the Ashanti region, Ghana. Sera were also analysed for IAVs antibodies and serotyped using ELISA and HI assays. IAV was detected in 1.4% (n = 17/1,200) and 2.0% (n = 2/99) of swine and farmers samples, respectively. Viral subtypes H3N2 and H1N1pdm09 were found in human samples. All virus‐positive swine samples were subtyped as H1N1pdm09 phylogenetically clustering closely with H1N1pdm09 that circulated among humans during the study period. Phenotypic markers that confer sensitivity to Oseltamivir were found. Serological prevalence of IAVs in swine and farmers by ELISA was 3.2% (n = 38/1,200) and 18.2% (n = 18/99), respectively. Human H1N1pdm09 and H3N2 antibodies were found in both swine and farmers sera. Indigenous swine influenza A viruses and/or antibodies were not detected in swine or farmers samples. Majority (98%, n = 147/150) of farmers reported of not wearing surgical mask and few (4%, n = 6) reported to wear gloves when working. Most (n = 74, 87.7%) farmers reported of working on the farm when experiencing influenza‐like illness. Poor husbandry and biosafety practices of farmers could facilitate virus transmission across the human–swine interface. Farmers should be educated on the importance of good farm practices to mitigate influenza transmission at the human–animal interface. 相似文献
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N Masurel G.F de Boer W.J.J Anker A.D.N.H.J Huffels 《Comparative immunology, microbiology and infectious diseases》1983,6(2):141-149
In the period December 1979-May 1980 a respiratory disease spread rapidly through pig herds in The Netherlands. Surveillance of 12 pig farms resulted in isolation of 22 influenza A-Swine-H1N1 (Hsw1N1) strains from 9 pig herds. The morbidity rate was high but the mortality rate was nil. Retardation in growth was observed. Sera collected from affected pig herds showed a fourfold increase in haemagglutination inhibition (HI) titre against A-Swine-H1N1 virus. Sera collected on five farms showed a geometric mean HI titre against the A-H3N2 virus above 100. A significant HI titre increase against this virus was found in sera collected on three farms. These findings indicated a recent infection by this virus. A-H3N2 virus was not isolated. The Dutch Swine-1980 isolates showed in the cross-HI test a distant antigenic relationship with the classical A/Swine/Iowa/30 (H1N1) virus and one-sided close antigenic relationship with A/New Jersey/76 (H1N1) virus.HI antibody to A/Swine/Nederland/80 (H1N1) virus was found in 4, 0, and 44%, to A/New Jersey/76 (H1N1) virus in 0.5, 0.4, and 42%, and to A/Swine/Iowa/30 (H1N1) virus in 0.5, 1, and 30% of pig sera collected in 1976, 1977, and 1980, respectively. HI antibody to A/Hong Kong/68 (H3N2) virus was detected in 36, 56, and 68%, and to A/Victoria/75 (H3N2) virus in 38, 73, and 68% of these sera, respectively.The results of this study indicate that pigs in The Netherlands, like those in North America, Southeast Asia, Japan, and Western Europe harbour A-Swine-H1N1 and A-H3N2 influenza viruses and are thus potential reservoirs for future human pandemics. 相似文献