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1.
从山东某鸡场的产蛋下降而无其他典型新城疫(Newcastle Disease)症状的高抗体蛋鸡群中分离到一株病毒。经过试验鉴定,该分离株具有血凝性,且可被ND标准阳性血清所抑制和中和,不能被AI(H5亚型与H9亚型)标准阳性血清抑制;该病毒的最小致死量病毒致死鸡胚的平均时间(h)为50.4h,1日龄SPF鸡脑内接种分离病毒致病指数(ICPI)为1.85,6周龄SPF鸡静脉接种致病指数(IVPI)为2.42,回归试验鸡出现了新城疫症状和病变,经外源病毒检测及回归试验该病毒株被确定为新城疫病毒,并属强毒型,命名为ShD-5-04。 相似文献
2.
从河南某鸡场的产蛋下降而无其他典型新城疫症状的高抗体蛋鸡群中分离到一株病毒。经过鉴定,该分离株具有血凝性,可被ND标准阳性血清所抑制和中和,不能被AI(H5与H9亚型)和EDS-76标准阳性血清抑制;该病毒致死鸡胚的平均时间(MDT)为50.4h,1日龄SPF鸡脑内接种分离病毒致病指数(ICPI)为1.85;6周龄SPF鸡静脉接种致病指数(IVPI)为2.42;回归试验鸡出现新城疫症状和病变,对该病毒株F基因部分片段进行了序列测定分析,为强毒型新城疫病毒基因Ⅶ型,并暂命名为HNC-06。 相似文献
3.
从梁山县1例以肠道糠麸样溃疡,胰腺、脾脏肿胀且表面有大小不等的灰白色坏死灶为主要特征的病死鹅中分离到1株病毒。血凝试验和血凝抑制试验表明该病毒分离株具有血凝性,且其血凝特性能被新城疫标准阳性血清抑制,而不被H9N2亚型禽流感病毒标准阳性血清所抑制。毒力测定结果表明该病毒鸡肧平均致死亡时间(MDT)为49.7h;1日龄SPF鸡脑内接种分离病毒致病指数为1.76;6周龄SPF鸡静脉接种致病指数(IVPI)为2.78。 相似文献
4.
从山东某鸡场的产蛋下降而无其他典型ND症状的高抗体蛋鸡群中分离到一株病毒。经过试验鉴定.该分离株具有血凝性,且可被ND标准阳性血清所抑制和中和,不能被AI(H5亚型与H9亚型)标准阳性血清抑制;该病毒的最小致死量病毒致死鸡胚的平均时间(MDT)为50.4,1日龄SPF鸡脑内接种分离病毒致病指数(ICPI)为1.85,6周龄SPF鸡静脉接种致病指数(WPI)为2.42,回归试验鸡出现了新城疫症状和病变,该病毒株确定为新城疫病毒强毒型,并暂命名为ShD-dzh04。 相似文献
5.
鸭源新城疫病毒分离株的生物学特性鉴定 总被引:1,自引:1,他引:1
从河北某鸭场产蛋锐减而无其他典型新城疫症状的高抗体蛋鸭群中分离到1株病毒(命名为HB/1/06/Dk).经过鉴定,该分离株具有血凝性,可被新城疫病毒(NDV)标准阳性血清所抑制,不能被禽流感病毒(AIV H5与H9亚型)阳性血清和减蛋综合征病毒(EDSV)标准阳性血清抑制;该病毒致死鸡胚的平均时间(MDT)为67.2 h,1日龄SPF雏鸡的脑内接种致死指数(ICPI)为0.86,表明该病毒属中等毒力毒株. 相似文献
6.
从江苏某地患病鹅群的脑、脾病料组织中分离到一株病毒。经过试验鉴定,该分离株具有血凝性,且可被ND标准阳性血清所抑制和中和,不能被A(IH5亚型与H9亚型)和EDS-76标准阳性血清抑制。人工感染雏鹅,引起100%的发病和死亡,并与自然病例有相似的症状和病变。该病毒的最小致死量病毒致死鸡胚的平均时间(MDT)为50.4h,1日龄SPF鸡脑内接种分离病毒致病指数(ICPI)为1.85;6周龄SPF鸡静脉接种致病指数(IVPI)为2.42;对该病毒株F基因部分片段进行了序列测定分析,确定为强毒型鹅副粘病毒基因Ⅶ型,并暂命名为HQ-06。采用分离株制备成油乳剂灭活苗,免疫鹅群有良好的保护力。 相似文献
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8.
利用SPF鸡胚培养法从上海川沙某具有典型新城疫症状和病理变化的高死亡率发病鸽场的死亡鸽体内分离到一株病毒.对该病毒E5代尿囊液进行病原学鉴定、RT-PCR鉴定、理化特性测定、致病指数、病毒血清学试验及鸽体致病性试验,结果显示该病毒具有血凝性,且血凝特性可被新城疫病毒参考阳性血清所抑制,而不能被减蛋综合征病毒、禽流感病毒(H5、H9和H7)阳性血清抑制;该病毒对氯仿、乙醚和酸敏感;致病指数分别为:最小致死量鸡胚平均死亡时间为55.2 h,1日龄雏鸡脑内致病指数为1.8,6周龄雏鸡静脉致病指数为2.39.经鉴定,该分离毒株为鸽副黏病毒Ⅰ型强毒株,将其命名为鸽副黏病毒Ⅰ型(川沙株). 相似文献
9.
用SPF鸡胚从江苏省某一患病鹅群的肝、脾混合病料组织悬液中分离到一株病毒,该毒株能凝集(HA)鸡红细胞(RBC),HA为26,并可被康复鹅血清、抗鸡新城疫(NDV)阳性血清、抗鸽NDV阳性血清所抑制,而不能被禽流感(H5、H9)标准阳性血清抑制。人工感染易感雏鹅,引起100%的发病和死亡,并有与自然病例相似的症状和病变;人工感染42日龄SPF鸡出现100%的发病和死亡。对该分离株作致病性测定,按照国际上规定的NDV毒力型判定标准,测定了该毒株最低致死量致死鸡胚的平均死亡时间(MDT)为39h,1日龄雏鸡脑内接种致病指数(ICPI)为1.6,6周龄雏鸡静脉接种致病指数(ICPI)为2.67。试验结果表明,该分离株为强毒力型禽副粘病毒I型(MPV-1),命名为鹅副粘病毒I型(GPMV-1)HG99株。 相似文献
10.
一株新城疫强毒株的分离鉴定 总被引:1,自引:1,他引:1
从昌吉市肉种鸡发病鸡群中分离到1株病毒,对其进行了SPF鸡胚接种试验,HA及NDV和AIVH5、H9单因子血清HI试验,动物回归试验,MDTI、CPI和IVPI毒力学指标测定,分离株与NDV Lasota株交叉HI试验,鸡胚半数感染量(EID50)测定。结果表明,分离株的MDT为55 h;ICPI为1.78;IVPI为2.41,第6代病毒EID50为3.98×10-8/0.1 mL。分离株能被NDV La-soda株阳性血清中和,动物回归试验鸡出现典型的新城疫症状。证明该毒株为新城疫强毒株。 相似文献
11.
从2003年10月至2004年6月,在河北、辽宁、山东等地区鸡群中大规模发生以神经症状、肠道出血为主的流行性疾病。本文对从河北省某AA肉鸡场的病死鸡中分离的病毒毒株,经过实验室的系统鉴定,证实该分离株具有血凝性,且可被ND标准阳性血清所抑制和中和,不能被AI(H5亚型与H9亚型)标准阳性血清及阴性血清抑制;该分离株的毒价为109.3ELD50/0.1ml,MDT为57.6h,ICPI为1.89,IVPI为2.62,回归试验鸡的临床表现与自然病例基本一致。试验结果证明,该毒株属于嗜神经型新城疫病毒强毒株,并命名为Q-BS株。 相似文献
12.
高致病性禽流感(highly pathogenic avian influenza, HPAI)和新城疫(newcastle disease, ND)等烈性传染病对养禽业危害严重,是养禽业需重点防控的疾病,其中HPAI是国家规定的强制免疫疫病。武汉市新洲区为家禽养殖大区,有规模禽场350余家,养殖规模近1140万只。为了解2021年度武汉市新洲区规模养殖场高致病性禽流感和新城疫免疫抗体合格率,武汉市新洲区农业技术推广服务中心连续12个月对辖区内规模鸡场进行蛋样抽检,运用血凝和血凝抑制试验,分别检测了高致病性禽流感H5亚型、H7亚型和新城疫的免疫抗体。结果显示,高致病性禽流感H5亚型、H7亚型和新城疫的整体免疫抗体合格率分别为94.1%、96.4%和88.9%,均达到了农业农村部规定的免疫抗体合格率不低于70.0%的标准。 相似文献
13.
Abdelfattah H. Eladl Hamed R. Hamed Mostafa R. Khalil 《Veterinary research communications》2014,38(3):237-247
The consequence of cryptosporidiosis on the immune response of vaccinated chickens against Newcastle disease and/or avian influenza was studied by using 240, 1 day old, male, white Hy-Line chicks and divided into 8 groups and subgroups. Each group or subgroup was consisting of 30 chicks (15?×?2 replicates). The first and second groups were kept as unvaccinated control, G1uninfected and G2 infected. G3, G4 and G5 contained 2 subgroups A&B (G3A, G3B, G4A, G4B, G5A and G5B). Chicks of subgroup A were vaccinated only while chicks of subgroup B were infected and vaccinated. These chicks were orally inoculated with 5?×?105 oocysts of Cryptosporidium baileyi (C. baileyi) at 2 days of age. Chickens were vaccinated intraocular with live Newcastle disease (ND) vaccine (Hitchner on day 7th and LaSota on day 17th of chicken life) (G3) or vaccinated by subcutaneous route with Volvac®- H5N2- AI vaccine on day 10 of chicken life (G4). Last group (G5) was infected similarly and vaccinated with ND and AI vaccines with the same day, dose and route of vaccination for each one. Random blood samples were collected for 3 weeks post-vaccination for investigation of humoral immune response against Newcastle and/or avian influenza vaccines by the haemagglutination inhibition (HI) test. The results showed that H5N2 vaccine at day 10 of chicken life is effective in chickens indicated by the geometric mean of HI titer against AI virus. The findings of this study showed that the infection with Cryptosporidia in the broiler chicken has a depressive effect on the immune status of the birds vaccinated against ND and/or AI vaccination. Moreover, the obtained protection rates against challenge with virulent ND virus observed to be parallel to the results of HI- test. Also, by using 2 different antigens (one commercial and field prepared antigen) to avian influenza virus, lower Geometric mean (GM) HI titer were appeared in infected and vaccinated group than vaccinated group only. A study of the relative lymphoid organs weight such as bursa of Fabricius from the experimental chicks indicated that those organs were comparable between the groups infected-vaccinated and vaccinated only. Non significant variations in final live weight between uninfected control and infected groups were indicated. Also, H5N2-AI vaccination at 10 days old did not affect the final live weight. ND and/or AI Vaccination could not be a substitute to application of good hygienic measures and fecal examination of the birds especially for protozoal diseases such as cryptosporidiosis. It could be concluded that cryptosporidiosis could be one cause of ND and/or AI vaccination failure in poultry farms. 相似文献
14.
鸭副粘病毒强毒株的分离和鉴定 总被引:22,自引:3,他引:22
采用鸡胚接种法从安徽凤阳某患病肉鸭群中分离到一株病毒。该素株对鸡红细胞具有凝集性,并可被康复鸭鸭血清和NDV阳性抗血清所抑制,而不能被禽流感标准阳性血清抑制,结合血清中和鸡胚接种试验,病毒回归试验和免疫防治效果的研究结果,确认为鸭副粘病毒。参照国际上规定的新城疫病毒毒力判定的标准及其方法,测定该分离株的鸡胚最小致死量平均死亡时间(MDT),1日龄鸡及脑内接种致病指数(ICPI)和6周龄鸡静脉内接种致病指数(IVPI)分别为48.9h,1.80和2.45。表明该鸭副粘病天线离株具有新城疫病毒(NDV)速发型相类似的毒力,属强毒力毒株,并定名为WF00D株。 相似文献
15.
朗德鹅禽流感病毒的分离与鉴定 总被引:2,自引:0,他引:2
用禽流感病毒ELISA试剂盒对某朗德鹅养殖场的病鹅气管粘液进行了检测,发现5份粘液样本均呈禽流感阳性;随后取相应气管组织材料接种于9~11日龄鸡胚分离病毒.发现尿囊液能使鸡红细胞发生凝集,用禽流感病毒H5、H7、H9标准阳性血清和新城疫病毒、传染性支气管炎病毒、传染性喉气管炎病毒、传染性法氏囊炎病毒抗血清作HI试验,结果禽流感病毒H5亚型抗血清的血凝抑制滴度达到2^7,而禽流感病毒H7、H9亚型及其他病毒抗血清无血凝抑制滴度,说明从朗德鹅分离到的病毒为H5亚型禽流感病毒。 相似文献
16.
新城疫病毒强毒株的分离与鉴定 总被引:33,自引:2,他引:33
从发病率为100%、病死率为97%的鸡群中分离到1株病毒。该病毒凝集鸡红细胞的作用可被新城疫标准阳性血清所抑制,证明所分离的毒株为新城疫病毒。鸡胚半数致死量、最小致死量致死鸡胚的平均时间、1日龄雏鸡脑内致死指数、6周龄雏鸡静脉致死指数、血凝解脱及血凝素热稳定性等试验表明,分离毒为新城疫病毒强毒株,其毒力比标准强毒F48E8株还强。血凝抑制试验和中和试验表明,分离毒的血凝性与F48E8相同,但中和特性与F48E8有较大差异 相似文献
17.
从新疆乌鲁木齐市郊区疑似新城疫的发病鸡场采集了2份病料,处理后接种鸡胚和非免疫鸡分离鉴定病毒,同时检测病毒血凝特性,观察病毒形态并测定病毒致病力。试验结果表明,分离株均能致死鸡胚,非免疫鸡出现典型的鸡新城疫病病理变化;分离毒株均有血凝特性,而且可被新城疫阳性血清所抑制;病毒形态结构与鸡新城疫病毒一致;EID50分别为10-8.0/0.1mL、10-8.6/0.1mL,MDT分别为57.6h、52.8h,ICPI分别为1.875、1.925,IVPI分别为2.39、2.82,均有很强的致病力,符合NDV强毒株的毒力标准。所有结果显示,以上2个分离株均为新城疫强毒力毒株。病毒免疫原性结果显示,2株病毒均有有良好的免疫原性,同源保护率分别为90%、80%。 相似文献
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设计不同的免疫程序,用鸡新城疫、传染性支气管炎、禽流感(H9亚型)三联灭活疫苗(La Sota株+M41株+SS/94株)免疫黄羽肉鸡,通过对ND、IB、H9抗体滴度监测,探讨ND、IB、H9抗体消长规律及鸡新城疫、传染性支气管炎、禽流感(H9亚型)三联灭活疫苗(La Sota株+M41株+SS/94株)的免疫程序。试验结果表明,用鸡新城疫、传染性支气管炎、禽流感(H9亚型)三联灭活疫苗(La Sota株+M41株+SS/94株)免疫黄羽肉鸡后,其诱导产生的ND、IB、H9抗体的消长规律基本同步;仅于10日龄免疫一次三联灭活苗,其抗体水平较低,于20、40日龄二免、三免或10日龄先用鸡新城疫病毒(La Sota株)、禽流感病毒(H9亚型,SS/94株)二联灭活疫苗作基础免疫,20或40日龄再用三联灭活苗作加强免疫,则上述3种抗体均快速上升,且维持时间长。根据试验结果,建议按照正常免疫程序作基础免疫的健康肉鸡,饲养期较短的可于20日龄左右用鸡新城疫、传染性支气管炎、禽流感(H9亚型)三联灭活疫苗(La Sota株+M41株+SS/94株)作加强免疫,0.3 mL/只;饲养期较长的则于40日龄左右用鸡新城疫、传染性支气管炎、禽流感(H9亚型)三联灭活疫苗(La Sota株+M41株+SS/94株)作加强免疫,0.5 mL/只。 相似文献
19.
SUMMARY Twelve isolations of Newcastle disease virus were made from 77 clinical samples from chickens with conjunctivitis, respiratory disease, proventriculitis and bursal atrophy. Nine of the Isolations were made from chickens with conjunctivitis. The viruses were identified as Newcastle disease virus by inhibition of their haemagglutinins with specific antiserum to Newcastle disease virus. The viruses failed to kill chicken embryos after inoculation into the allantoic cavity and they were judged to be lentogenic strains. There was no evidence that the Newcastle disease viruses were responsible for any of the clinical conditions from which they were isolated. The presence of other agents in 10 of the samples was indicated by reduced production of haemagglutinin in allantoic fluids of infected embryos, by deaths of infected embryos, by the production of cytopathic changes in avian cell cultures and by electron microscopy. Three isolations of infectious bronchitis virus, 2 of avian adenovirus and one of avian reovirus were made. Other samples were suspected of containing infectious bronchitis virus and mycoplasmas, but these were not isolated. The Newcastle disease viruses failed to produce plaques in chicken embryo fibroblast cell cultures and they were separated from the contaminating agents by haemagglutination and elution followed by passage at terminal dilution in chick embryos. No Newcastle disease virus was isolated from 60 caecal tonsils and 60 lung samples from 9-week-old broiler chickens. Eight lung samples yielded mycoplasmas that caused haemadsorption in chicken cell cultures. The mycoplasmas were probably Mycoplasma gallisepticum. 相似文献