牛乳腺炎的疫苗和诊断方法:事实与虚构。

R J Yancey
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引用次数: 75

摘要

许多问题都与奶牛接种乳腺炎疫苗有关。其中之一是乳腺炎病原体的数量众多且异质性。疫苗工作主要集中在主要的乳腺炎病原体上。虽然至少有一种金黄色葡萄球菌已在商业上可用多年,但在支持该疫苗有效性的参考期刊上尚未发表大规模、独立的实地试验。金黄色葡萄球菌的实验疫苗由假胶囊富集的细菌补充α -和/或β -类毒素组成,看起来很有希望,但这些都没有商业化。对于uberis,最近报道用活菌株和一种细菌对同源菌株的攻击有一定的保护作用,但来自同一实验室的其他数据表明,这种疫苗对异源攻击菌株没有保护作用。目前只有一种高效的乳腺炎疫苗,即大肠菌群乳腺炎的核心抗原疫苗。所有可用于这一适应症的市售疫苗都是大肠杆菌菌株J5或沙门氏菌菌株的粗突变体。基于uberis纤溶酶原激活剂的实验性疫苗的初步成功,是一种非常不同的乳腺炎疫苗。据报道,接种其他乳腺炎病原体疫苗收效甚微。对于诊断方法,通过直接计数或间接测定的高体细胞计数仍然是乳腺炎诊断的基石。然而,对于亚临床乳腺炎,细菌细胞培养是一种可靠的诊断方法。病原体鉴定可能依赖于较旧的生化检测方法或较新的商业鉴定系统,这取决于实验室的预算。酶联免疫吸附试验也被用于评估群体感染状况。流行病学研究已经使用了DNA指纹和核糖分型,但这些方法都尚未产生易于使用的商业格式。在未来十年内,可能会有针对几种最常见的牛乳腺炎病原体的额外有效疫苗。在那个时候写的评论可能更真实而不是虚构。
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Vaccines and diagnostic methods for bovine mastitis: fact and fiction.

A number of problems are uniquely associated with vaccination of dairy cows for mastitis. One of these is that the number of mastitis pathogens is numerous and heterogeneous. Vaccine efforts have concentrated mainly on the major mastitis pathogens. While at least one S. aureus bacterin has been commercially available for a number of years, no large-scale, independent field trials have been published in refereed journals which support the efficacy of this vaccine. Experimental vaccines for S. aureus composed of pseudocapsule-enriched bacterins supplemented with alpha- and/or beta-toxoids appear promising, but none of these has been commercialized. With S. uberis, some protection against homologous strain challenges was reported recently with a live strain and a bacterin, but other data from the same laboratory showed this vaccine would not protect against heterologous challenge strains. At this time there is only one highly effective vaccine for mastitis, the core-antigen vaccine for coliform mastitis. All of the commercially available vaccines for this indication are bacterins of rough mutants of E. coli strain J5 or Salmonella spp. Preliminary success with an experimental vaccine based on the plasminogen activator of S. uberis is a very different approach for a mastitis vaccine. Little success has been reported with vaccination against other mastitis pathogens. For diagnostic methods, the high somatic cell count, as measured by direct count or indirect assays, remains the cornerstone of mastitis diagnosis. However, for subclinical mastitis, bacterial cell culture is a reliable diagnostic method. Pathogen identification may rely on older biochemical testing methods or newer commercial identification systems, depending on the laboratory budget. ELISA assays also have been used to assess herd infection status. Epidemiologic studies have used DNA fingerprinting and ribotyping, but none of these methods has yet produced an easily utilized commercial format. Within the next decade, additional efficacious vaccines for several of the most common agents for bovine mastitis are likely. A review written at that time then can be more fact than fiction.

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