鸡IFN-γ重组鸡痘病毒对鸡传染性腔上囊炎MB43弱毒疫苗免疫鸡免疫应答的影响     

都兴洋石星明  王云峰杨春富 王玫童光志  尹训南王笑梅 《中国兽医科技》2007,37(1):33-37

将重组鸡痘病毒（rFPV—IFN-γ）与IBDMB43弱毒疫苗联合接种SPF鸡，研究重组鸡IFN-γ对IBD疫苗免疫效果的影响。结果显示，rFPV—IFN-γ和MB43弱毒疫苗联合免疫组（MB43＋rFPV-IFN-）＂）及rlFN-γ和MB43弱毒疫苗联合免疫组（MB43＋rIFN-γ）在免疫后第2周即可检出ELISA抗体，比MB43疫苗单独免疫组早1周。用IBDVGx株攻击后，MB43＋rFPV-IFN-γ组和MB43＋rIFN-γ组免疫鸡的脾只有个别淋巴细胞核浓缩、核崩解，少数滤泡萎缩变性坏死；胸腺损伤程度轻于MB43疫苗单独免疫组和非免疫对照组。免疫后1周，3个免疫组外周血CD8^＋T淋巴细胞含量均显著高于非免疫对照组，CD4^＋T淋巴细胞含量变化不明显；攻毒后第2周，3个疫苗免疫组CD4^＋、CD8^＋T淋巴细胞含量均显著升高，各组之间CD4^＋、CD8^＋T淋巴细胞含量无明显差异。证实，rFPV—IFN-γ和rIFN-γ可加强疫苗的细胞免疫和体液免疫应答。  相似文献   

鸡球虫三价弱毒疫苗对鸡的免疫效果研究     

《中国兽医科技》2007,37(10):873-875

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缓释复方免疫增强剂对鸡新城疫疫苗免疫增强效果研究     

刘瑞生  薛掌林  张述斌  王必慧 《水禽世界》2007,(12):8-10

将40只10日龄海兰褐蛋雏鸡，随机分成试验组和对照组，每组20只，分别皮下注射ND-La Sota弱毒疫苗0．2ml／只。同时给试验组雏鸡投服缓释复方免疫增强剂1粒／只，对照组不投服。在免疫前、免疫后10、20、30和40d，每组随机取10只鸡采血，测定ND-HI抗体效价、T淋巴细胞ERFC形成率和ANAE阳性率。结果免疫后10、20、30、40d，试验组与对照组比较，鸡ND-HI抗体效价、T淋巴细胞ERFC形成率和ANAE阳性率差异极显著（P〈0．01）或显著（P〈0．05），三项指标具有相同的消涨趋势，表明缓释复方免疫增强剂可以提高鸡的体液免疫功能和细胞免疫功能。  相似文献   

兽用常温耐热型弱毒活疫苗的研究进展     

刘秋燕  张昶  任向阳  高卫科  陈陆  王川庆 《中国畜牧兽医》2007,34(4):91-93

常温耐热型弱毒活疫苗对预防畜禽疾病具有重要作用，对它的研究越来越多，尤其是耐热冻干保护剂。作者对耐热冻干保护剂的组成、作用机制、效能及畜禽疫病中的应用进行了介绍。  相似文献   

兽用生物制品的运输、贮存与使用     

张振兴  李玉峰  蒋文明 《经济动物学报》2006,10(2):63-65

对兽用生物制品的命名作了概述,并对免疫预防用制品、诊断用制品、治疗用制品的运输、贮存与使用分别进行了阐述,同时对改善我国兽用生物制品的监管提出了建议。  相似文献   

Isolation and Identification of a Variant Porcine Epidemic Diarrhea Virus and the Immune Efficacy of Its Inactivated Vaccine     

CHANG Xianyun  ZHAO Runze  TONG Ke  CHEN Shaoxian  LIU Guoping 《中国畜牧兽医》2007,47(11):3651-3658

This study was aimed to isolate a mutant strain of porcine epidemic diarrhea virus and prepare a PEDV inactivated vaccine with high valence by suspension culture process for immunizing against PEDV effectively in China.200 small intestines and theirs contents of diarrhea piglets died of diarrhea,collected from many large-scale pig farms in China,were detected by RT-PCR and sequenced,a mutant strain of porcine epidemic diarrhea virus was selected and put on the suspension-cultured Vero cells in a 2 L reactor for virus isolation and continuous cell culture,the harvested virus suspension,which was identified and determined TCID₅₀,was inactivated by formaldehyde and mixed with aluminum hydroxide gel adjuvant to prepare PEDV inactivated vaccine.After its physical behavior,stability viscosity,sterility test were checked out,the safety and immune efficacy were studied by immunizing the pregnant pigs and theirs piglets.The results were as follows:86 samples were detected positive in 200 samples,cytopathy occurred after the mutant strain samples screened were passaged to 5th generation,the virus suspension was harvested in 10th generation and identified as a mutant strain of PEDV,named PEDV-GF10 strain.The virus titer of harvested virus suspension was measured up to 1×10^8.0 TCID₅₀/mL after concentrated.After the vaccine was checked out,the sows,40 and 25 days before delivery in experimental groups,were injected into Xuehai acupoint with 4 mL vaccine and the pigs in blank group were free of immunifications.The results showed that there were no obvious differences in the production status of the sows in experimental groups and blank group and the temperature of theirs 3-day-old healthy piglets injected different doses of vaccine,and the vaccine was safe to the sows and piglets.Forty 3-day-old piglets producted by pregnant sows in experimental groups and blank group were randomly selected and taken 4 mL 1×10^8.0TCID₅₀/mL F10 virus culture.The PEDV morbidity of piglets in blank group was 100% after injection and the antibodies were negative;10% piglets in blank group had mild diarrhea symptoms,the protection rate was up to 90%,antibody of passive immunity in piglets lasted for more than 35 days.Virus titer of mutant strain of PEDV-GF10 improved a lot by suspension cell culture,the PEDV-GF10 inactivated vaccine was safe,and could effectively prevent and control the variation strain of PEDV in China.  相似文献   

Study on Synergistic Effect of VA5 Immunopotentiator on Pigeon NDV Inactivated Vaccine     

XIONG Xiaoyan  QIN Zhenbin  MO Hongfang  HE Dongxian  YU Lintian  XU Jiarong 《中国畜牧兽医》2007,47(12):4032-4040

This study was designed to evaluate the synergistic effect of VA5 immunopotentiator on pigeon ND4416 inactivated vaccine.160 healthy pigeons were randomly divided into four groups,including ND4416 strain inactivated vaccine group (NDV group),ND4416 strain inactivated vaccine and immunopotentiator (VA5) mixed group (NDV+VA5 group),La Sota inactivated vaccine group (La Sota group) and normal saline as the control group (C group),to assess their vaccine efficacy against virulent pigeon NDV by serological analysis and animal testing.Pigeons sera were collected at different time points after immunization and measured the HI antibody titer of each group.The results showed that VA5 immunopotentiator significantly improved the serum antibody level of pigeons immunized with pigeon Newcastle disease inactivated vaccine (P<0.05).In addition,comparative test of spleen lymphocyte transformation was conducted at various time points after immunization.The results indicated that VA5 effectively stimulated the lymphocyte transformation of immune pigeon.Pigeons in each groups were challenged with ND4416 strain at the 30th,90th and 180th d after immunization.The results presented that the NDV+VA5 group had 100% protection rate and higher than La Sota group.The duration of immunization test showed that the antibody titer of NDV+VA5 group reached peak 11.20log₂ at the 21st d,remained 7.50log₂ at 180th d,and the protection rate remained 100% at 180th d.It indicated that VA5 immunopotentiator sustained the immune duration of pigeon NDV vaccine up to 180 d.Moreover,the in vitro detoxification test results suggested that VA5 immunopotentiator reduced the in vitro detoxification cycle of pigeons after challenge.Overall,this study suggested VA5 immunopotentiator could significantly improve the immune efficacy of pigeon Newcastle disease inactivated vaccine,which provided a basis for further enhancing the efficacy of Newcastle disease vaccine,as well increased experimental data for the application of immunopotentiators.  相似文献   

Evaluation of a Competitive Exclusion Culture and Megan Vac 1 on Salmonella Typhimurium Colonization in Neonatal Broiler Chickens     

《The Journal of Applied Poultry Research》2007,16(3):456-463

The present study was designed to evaluate the effect of individual or simultaneous application of 2 products, a competitive exclusion culture (CEC) or Megan Vac 1 (MV), for bioefficacy in reducing Salmonella Typhimurium (ST) cecal colonization in broiler chicks following experimental challenge. In experiment 1, CEC and MV were applied to day-of-hatch broiler chicks, and chicks were experimentally challenged with ST approximately 48 h later. In control chicks, ST was recovered at a level of 3.84 log₁₀ cfu/g following direct plating of cecal contents, and 12 of 19 (63.15%) cultured individual ceca were positive following selective enrichment. In chicks receiving CEC by spray application on day of hatch, a numerical reduction in ST recovered from cecal contents (2.63 log₁₀ cfu/g) and a significant reduction (P < 0.05) in recovery of ST from cultured ceca following selective enrichment (4 of 18, or 22.2%) was observed when compared with controls. Significant reductions in ST cecal colonization in chicks treated with MV alone were not observed in experiment 1. In experiment 2, chicks received day-of-hatch spray application of CEC alone, MV alone, or CEC and MV as a combined application immediately prior to or within 24 h of chick placement. When chicks were experimentally challenged with ST 48 h posthatch, significant reductions (P < 0.05) in cecal colonization by ST were observed with each experimental group when compared with nontreated controls. These data suggest that both commercially available products, alone or in combination, are efficacious in reducing cecal colonization in broiler chicks challenged with ST.  相似文献   

Monitoring the Immune Status of Broilers Against Reoviruses Using Challenge and Serologic Data     

《The Journal of Applied Poultry Research》2007,16(2):187-191

Reoviruses are an important cause of suboptimum performance in commercial broilers worldwide. Integrators use the enzyme-linked immunosorbent assay against the S1133 antigen for monitoring serum of breeders for indicating pullet vaccine success. However, without correlating serology to reovirus challenge, it is difficult to determine whether titers reflect protective immunity. We developed a broiler challenge test against 2 common reovirus isolates (2408 and S1133) to evaluate the efficacy of reovirus pullet vaccine programs. Two reovirus serologic and challenge studies were undertaken using chicks from broiler integrators from the southeastern United States. Breeder flocks, from which the chicks were obtained, received at least 1 live and 2 inactivated reovirus vaccines during their pullet phase. One-day-old progeny were collected from 6 breeder flocks. At 1 d of age, 20 chicks from each broiler flock were bled, and serum was analyzed for antibodies. At 3 to 4 d of age, 20 progeny per flock were challenged with the 2408 reovirus by intratracheal route. At 10 to 14 d of age, another 20 birds per flock were challenged with the S1133 reovirus by footpad. Twenty birds per flock were used as nonchallenged controls. At 3 wk of age, all birds were killed and weighed. Percentage of protection was calculated for each flock based on the absence of gross lesions. Flocks with at least 50% protection were considered well protected. Most flocks were well protected against both viruses. The percentage of protection correlated with day-old enzyme-linked immunosorbent assay titers. Chicks from younger hens had higher titers and the best protection against challenge. Producers, whose hen flocks were monitored herein, were doing a good job of immunizing pullets against reovirus. They are now using reovirus progeny challenge studies along with breeder antibody titers to determine vaccination success of their pullets.  相似文献   

猪瘟病毒及其致病机制研究进展   总被引：1，自引：0，他引：1  

田宏刘湘涛  张彦明林彤吴锦艳  谢庆阁 《动物医学进展》2007,28(B08):27-30

猪瘟（CSF）是猪的一种高度接触性传染病，该传染病可分为急性、亚急性、慢性、非典型性和不明显型。急性CSF由强毒株引发，一般导致高发病率和死亡率，而弱毒病毒感染则表现不明显。由于疫苗的广泛应用，有效地控制了猪瘟的大流行，减少了急性死亡。但从20世纪80年代以后，临床症状不典型且病程变长的非典型性猪瘟（或慢性猪瘟）成为该病的主要发生形式，持续感染普遍存在，疫苗的预防效果明显下降，使猪瘟防制遇到了新的困难。以目前人类对猪瘟的认识水平，尚难以从分子水平解释这一新变化的成因，这是因为对猪瘟病毒致病机理及其分子基础的认识深度不够。就此，文章综述了猪瘟及猪瘟病毒研究进展，主要涉及CSFV生物学特性、致病机制及其防控，希望能为猪瘟防控提供新的思路和对策。  相似文献