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《畜牧兽医科技信息》2015,(10)
为调查深圳地区救护野鸟中禽流感感染状况,于2015年4月至2015年5月从深圳市野生动物救护中心放养区采集了野鸟肛拭子77份、野鸟血清11份,利用RT-PCR方法对拭子样品进行了AIV抗原检测;利用血凝抑制实验(HI)对血清样品进行H5N1(Re-4)、H5N1(Re-6)、H5N1(Re-7)、H7、H9等5种血清型AIV抗体检测。结果显示:拭子样品的AIV-Ag抗原检测全部阴性;而血清样品中H5(Re-4)阳性数1份,阳性率为1/11;H9阳性数1份,阳性率为1/11;未检出H5(Re-6)、H5(Re-7)及H7阳性抗体。 相似文献
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为调查深圳野生鸟类的禽流感感染情况,于2014年1月~2015年4月采集了678只野鸟的569份粪便,62份肛门拭子,26份咽肛拭子和21份血样.采用病原分离鉴定法、AIV-Ag(通用型)抗原速测卡胶体金法、荧光RT-PCR试验对样品拭子进行病原学检测.采用血凝抑制实验(HI)对血清样品进行H5N1(Re-4)、H5N1(Re-6)、H5N1(Re-7)、H7、H9等5种血清型AIV抗体检测.结果显示:26份咽肛拭子分离出1株H9N2亚型禽流感病毒,阳性率为3.85%;粪便和拭子样品的抗原检测全部阴性;血清样品中H5(Re-4)阳性数1份,阳性率为9.09%;H9阳性数7份,阳性率为63.64%;未检出H5(Re-6)、H5(Re-7)及H7阳性抗体. 相似文献
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为评估当前应用的Re-8株种毒相关禽流感灭活疫苗对野鸟源H5N8流感病毒的免疫预防效果,本研究将重组禽流感病毒(AIV)H5亚型Re-8株灭活疫苗(H5N1亚型,Re-8株)和重组AIV(H5+H7)灭活疫苗(H5N1Re-8株+H7N9 H7 Re-1株)分别以0.3 m L/只的剂量接种3周龄SPF鸡,免疫3周时进行HI抗体检测和攻毒试验。结果显示,上述2种疫苗免疫的SPF鸡血清中针对H5亚型Re-8株抗原的HI抗体均在8 log2以上,以105EID50的剂量、鼻腔感染途径攻击野鸟源H5N8病毒BHG/QH/2/16和BHG/Tibet/3/16后,所有免疫组鸡在14 d观察期内均全部健活,不排毒,而对照组鸡在攻毒后4 d内全部发病、死亡、排毒。现地免疫重组AIV H5亚型三价灭活疫苗(Re-6株+Re-7株+Re-8株)的商品蛋鸡直接进行HI抗体检测和攻毒试验,结果显示,免疫蛋鸡血清中针对Re-8株抗原的HI抗体平均滴度为8.3 log2,以相同攻毒方式和剂量分别攻击2株H5N8病毒后,免疫鸡也获得完全免疫保护,不发病、不死亡、不排毒。本研究结果表明,含有重组AIV H5 Re-8株抗原的灭活疫苗可有效防控野鸟源H5N8流感病毒,为我国及其他国家H5N8亚型禽流感免疫防控提供了科学依据。 相似文献
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为了解鲁北地区商品肉鸭中禽流感病毒(AIV)和新城疫病毒(NDV)的母源抗体、免疫抗体消长规律,分析在养殖过程中潜在的疫病风险,选择了三个规模化鸭场,分别采集了不同日龄鸭的血液样品,通过血凝试验和血凝抑制试验检测了AIV H5亚型(Re-6,Re-8)、H9亚型、H7亚型和NDV的抗体情况。结果表明:三个鸭场的AIV H5亚型和NDV抗体效价均处于较高水平,说明AIV H5免疫后的抗体能够产生有效保护,AIV H9亚型母源抗体在肉鸭12日龄左右消失,存在被感染的隐患;仅有两份血清样品检测到AIV H7亚型抗体效价,其余都为0;NDV在鸭群中存在不同程度的隐性感染。建议做好对AIV和NDV的抗体监测工作,并为防控相关疾病做好技术与产品储备。 相似文献
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为评价H9N2亚型重组禽流感病毒(AIV)灭活疫苗Re-9株的免疫效力,本研究选取2010年~2011年分离的5株H9N2亚型AIV进行攻毒保护实验。这5个分离株均为类A/CK/Beijing/1/94病毒株,其HA和NA基因与Re-9株及其亲本株的同源性介于90.6%~97.5%和88.1%~98.7%之间,其抗原相关值在66.67%~100%之间。将Re-9株为种毒制备灭活疫苗,免疫4周龄SPF雏鸡后,3周时平均HI抗体效价达9.5 log2;在免疫后3周以2×107EID50的剂量攻击亲本株和5株流行病毒株,攻毒后采集3 d、5 d、7 d的拭子,免疫组拭子样品病毒检测均为阴性;对照组3 d、5 d拭子病毒检测的阳性率均在80%以上,7 d的阳性率在60%以下。以上结果表明灭活疫苗Re-9株抗原针对性强,而且具有良好的免疫效力,能够抵御近年来分离的H9N2亚型AIV,是理想的H9N2亚型禽流感疫苗株。 相似文献
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为了解冬季新疆乌鲁木齐市活禽市场交易禽类及市场外环境中禽流感病毒污染情况及其流行规律,对某交易市场内的鸡、鸭、鹅、鸽等活禽,采集85份活禽全血样本和143份棉拭子样本(103份活禽泄殖腔/咽喉棉拭子、40份环境棉拭子),分别采用血清学和实时荧光定量(rRT-PCR)方法,检测禽流感免疫抗体和禽流感病毒核酸,并对核酸阳性样品进行病毒亚型确定。结果显示:85份全血样本中,H5(Re-11)株免疫抗体合格32份,合格率为37.6%;H5(Re-12)株免疫抗体合格34份,合格率为40%;H7(Re-2)株免疫抗体合格46份,合格率为54.2%。143份棉拭子样本中,禽流感病毒核酸阳性36份,阳性率为25.17%。其中:活禽棉拭子阳性29份,阳性率为28.15%;交易区外环境棉拭子阳性7份,阳性率为17.5%。36份禽流感病毒核酸阳性样本中,H5亚型3份,阳性率为8.33%;H9亚型22份,阳性率为61.11%;未定型11份,阳性率为30.56%。结果表明:该市场交易活禽流感病毒感染率较高,且强制免疫的H5、H7亚型禽流感免疫抗体合格率较低,存在疫情发生和散播风险。结果提示,应加强活禽交易市场的消毒与管理,降低禽流感病毒通过活禽交易市场传播的风险。 相似文献
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为了解贵州省H7亚型禽流感感染情况,采用HI试验对全省9个地区家禽血清样本进行血清抗体检测,PT-PCR方法对家禽咽-肛拭子、养禽场环境样本和野鸟粪便进行病原核酸检测。结果显示:在1570份家禽血清样本中,H7亚型禽流感血清抗体阳性率为0.45%(7/1570);在350份家禽咽-肛拭子和310份养殖场环境样本中,均未检测出H7亚型禽流感病毒核酸;在160份野鸟粪便中,有1份为H7亚型禽流感病毒核酸阳性,阳性率为0.63%(1/160)。试验提示,在贵州省养禽场中不存在H7亚型禽流感感染,但迁徙野禽中可能存在H7亚型禽流感隐性感染,应当引起重视。 相似文献
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为了更好地了解2022年湘阴县家禽中禽流感抗体水平和活禽批发市场禽流感病毒污染情况,通过春、秋两季免疫效果评估以及每个季度对两个活禽交易市场进行禽流感病毒专项监测,运用血凝抑制试验与实时荧光定量PCR的方法对血清及拭子样本进行禽流感病毒检测。结果显示:1200份禽血清中H5亚型AIV抗体整体合格率达到76.5%,H7亚型AIV抗体整体合格率达到78.8%;320份禽拭子和64份环境拭子中,H5亚型AIV阳性7份,阳性率1.8%,H7亚型AIV阳性数8份,阳性率2.0%。结果表明,家禽交易市场长期处于禽流感病毒污染状态。建议加强活禽市场管理,严格落实“1110”制度,确保禽类及产品的安全性和质量,降低禽流感病毒的传播速度和缩小传播范围。 相似文献
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为了评估野鸟在禽流感流行病学中的作用,于2004年4月-2005年6月间对上海地区捕捉到的63个品种的1 010只野鸟进行了血样和喉肛棉拭样品的采集.采用病毒分离试验和荧光RT-PCR试验对喉肛棉拭样品进行了病原学检测,结果均为阴性;采用HA和HI试验进行了禽流感血清抗体的检测,结果在15种野鸟的587份血样中检出了44份AIV阳性抗体,其中H1阳性数3份,阳性率为0.51%;H3阳性数4份,阳性率为0.68%;H5阳性数11份,阳性率为1.87%;H9阳性数26份,阳性率为4.43%. 相似文献
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Pfitzer S Verwoerd DJ Gerdes GH Labuschagne AE Erasmus A Manvell RJ Grund C 《Avian diseases》2000,44(3):655-660
In an intensive ostrich farming area in South Africa with a history of ostrich influenza outbreaks, we conducted a survey of avian influenza virus (AIV) and Newcastle disease virus (NDV) in wild aquatic birds. During late autumn and winter 1998, the time of year when outbreaks in ostriches typically start to occur, 262 aquatic birds comprising 14 species were sampled and tested for both virus infections. From eight samples, AIV, serotype H10N9, could be isolated. All isolates were apathogenic as determined by the intravenous pathogenicity index (0.00). Conversely, none of 33 sera of these wild birds showed antibodies against H10. However, one bird was found serologically positive for H6 AIV. This AIV serotype was later isolated from ostriches during an avian influenza outbreak in this area. No NDV was isolated although 34 of 46 serum samples contained NDV-specific antibodies. This is the first H10N9 isolate to be reported from Africa. In addition, our data support the notion that wild aquatic birds may function as a reservoir for AIV and NDV in South Africa. 相似文献
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Nagy A Machova J Hornickova J Tomci M Nagl I Horyna B Holko I 《Veterinary microbiology》2007,120(1-2):9-16
In order to determine the actual prevalence of avian influenza viruses (AIV) in wild birds in the Czech Republic extensive surveillance was carried out between January and April 2006. A total of 2101 samples representing 61 bird species were examined for the presence of influenza A by using PCR, sequencing and cultivation on chicken embryos. AIV subtype H5N1 was detected in 12 Mute swans (Cygnus olor). The viruses were determined as HPAI (highly pathogenic avian influenza) and the hemagglutinin sequence was closely similar to A/mallard/Italy/835/06 and A/turkey/Turkey/1194/05. Following the first H5N1 case, about 300 wild birds representing 33 species were collected from the outbreak region and tested for the presence of AIV without any positive result. This is the first report of highly pathogenic avian influenza subtype H5N1 in the Czech Republic. The potential role of swan as an effective vector of avian influenza virus is also discussed. 相似文献
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Globig A Starick E Werner O 《Berliner und Münchener tier?rztliche Wochenschrift》2006,119(3-4):132-139
In order to determine the actual prevalence of avian influenza viruses (AIV) in wild birds in Germany, extensive surveillance studies were carried out between March 2003 and January 2005. More than 3.000 samples of 79 different species of wild birds (migratory and resident birds) were taken and 1.151 established pools investigated. Samples came from 80 different regions of Germany. Forty AIV isolates representing 14 combinations of eight different hemagglutinin and eight neuraminidase subtypes, among them H5 and H7, were identified. All H5 and H7 isolates were found to be of low pathogenicity. The overall incidence of the investigated pools based on virus isolation was 3,5 % for AIV, with considerable variability noted among species, season and location. All AIV were isolated from birds sampled in autumn. Most of the AIV isolates came from the resting or wintering areas of mallards breeding far north. This study adds to the understanding of the ecology of influenza viruses in wild birds and empahsizes the constant need for surveillance in times of an ongoing and expanding epidemic of highly pathogenic AI. 相似文献
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Choi JG Kang HM Kim MC Paek MR Kim HR Kim BS Kwon JH Kim JH Lee YJ 《Veterinary microbiology》2012,155(2-4):147-157
The H3 subtype avian influenza virus (AIV) is one of the most frequently isolated subtypes in domestic ducks, live poultry markets, and wild birds in Korea. In 2002-2009, a total of 45 H3 subtype AIVs were isolated from the feces of clinically normal domestic ducks (n=28) and wild birds (n=17). The most prevalent subtypes in domestic ducks were H3N2 (35.7%), H3N6 (35.7%), H3N8 (25.0%), and H3N1 (3.6%, novel subtype in domestic duck in Korea). In contrast, H3N8 (70.6%) is the most prevalent subtype in wild birds in Korea. In the phylogenetic analysis, HA genes of the Korean H3 AIVs were divided into 3 groups (Korean duck, wild bird 1, and wild bird 2) and all viruses of duck origin except one were clustered in a single group. However, other genes showed extensive diversity and at least 17 genotypes were circulating in domestic ducks in Korea. When the analysis expanded to viruses of wild bird origin, the genetic diversity of Korean H3 AIVs became more complicated. Extensive reassortments may have occurred in H3 subtype influenza viruses in Korea. When we inoculated chickens and ducks with six selected viruses, some of the viruses replicated efficiently without pre-adaptation and shed a significant amount of viruses through oropharyngeal and cloacal routes. This raised concerns that H3 subtype AIV could be a new subtype in chickens in Korea. Continuous surveillance is needed to prepare the advent of a novel subtype AIV in Korea. 相似文献
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This is the first reported isolation of avian influenza virus (AIV) from emu in China. An outbreak of AIV infection occurred at an emu farm that housed 40 four-month-old birds. Various degrees of haemorrhage were discovered in the tissues of affected emus. Cell degeneration and necrosis were observed microscopically. Electron microscopy revealed round or oval virions with a diameter of 80 nm to 120 nm, surrounded by an envelope with spikes. The virus was classified as low pathogenic AIV (LPAIV), according to OIE standards. It was named A/Emu/HeNen/14/2004(H9N2)(Emu/HN/2004). The HA gene (1683bp) was amplified by RT-PCR and it was compared with other animal H9N2 AIV sequences in GenBank, the US National Institutes of Health genetic sequence database. The results suggested that Emu/HN/2004 may have come from an avian influenza virus (H9N2) from Southern China. 相似文献