BIOEPAR, INRA, Oniris, 44307, Nantes, France.
Groupement de Défense Sanitaire Pays de la Loire, 49800 Trelazé, France.
J Dairy Sci. 2019 Oct;102(10):9117-9137. doi: 10.3168/jds.2018-15897. Epub 2019 Aug 1.
Mycobacterium avium ssp. paratuberculosis (MAP) is the etiological agent of paratuberculosis, a disease that affects ruminants worldwide. Despite global interest in the control of this disease, gaps exist in our knowledge of fecal shedding patterns and concurrent serological patterns. This longitudinal study in dairy cattle herds with high MAP seroprevalence in France aimed at accurately describing fecal shedding patterns over 1 year; relating those shedding patterns to individual animal characteristics (age, breed, parity); and exploring the association between fecal shedding patterns and serological patterns. To describe temporal fecal shedding patterns and continuity of shedding, along with the standard quantitative PCR (qPCR) threshold cycle we used a cutoff value that related to low or nonculturable fecal shedding. We also defined a threshold cycle indicative of shedding in high quantities to describe infection progression patterns. Twenty-one herds completed the study, and 782 cows were tested 4 times each. We obtained 4 sets of paired fecal qPCR and serum ELISA results from 757 cows. Although we targeted highly likely infectious animals, we found a large diversity of shedding patterns, as well as high variability between herds in the proportion of animals showing a given pattern. The fecal qPCR results of almost 20% of the final study sample were positioned at least once in the range that indicated low or nonculturable fecal shedding (between the adjusted and the standard cutoff value). Although these animals would typically be classified as non-shedders, they could be important to infection dynamics on the farm. Animals that shed at least twice consecutively and animals that shed in high quantities rarely reverted to negativity. Repeated fecal qPCR can be used to detect temporal fecal shedding traits, and the decision to cull an animal could practically be based on temporal, semiquantitative results. Overall, we found a mismatch between fecal shedding and ELISA seropositivity (637 animals were ELISA-negative 4 times, but only 13% of those animals were qPCR-negative 4 times). We found that having more than 2 ELISA-positive samples was strongly related to persistent and continuous shedding. We suggest that although serological testing is much less sensitive than qPCR, it can also be used, particularly over the course of multiple testing events, to identify animals that are most likely to contribute to the contamination of the farm environment.
分支杆菌 avium ssp. 副结核病 (MAP) 是副结核病的病原体,这是一种影响全球反刍动物的疾病。尽管全球都对这种疾病的控制感兴趣,但我们对粪便排放模式和同时发生的血清学模式的了解仍存在差距。这项在法国高 MAP 血清阳性率奶牛群中的纵向研究旨在准确描述一年内的粪便排放模式; 将这些排放模式与个体动物特征(年龄、品种、胎次)联系起来; 并探索粪便排放模式与血清学模式之间的关联。为了描述时间粪便排放模式和排放的连续性,以及我们使用与低或非培养粪便排放相关的截止值的标准定量 PCR(qPCR) 循环数。我们还定义了一个表示大量排放的循环数,以描述感染进展模式。21 个牧场完成了这项研究,782 头牛每次检测 4 次。我们从 757 头奶牛中获得了 4 组配对的粪便 qPCR 和血清 ELISA 结果。尽管我们针对的是极有可能感染的动物,但我们发现了大量的排放模式,并且在不同牧场中,表现出某种模式的动物比例也存在很大的差异。最终研究样本中几乎 20%的粪便 qPCR 结果至少有一次位于表示低或非培养粪便排放的范围内(在调整和标准截止值之间)。尽管这些动物通常被归类为非排放者,但它们可能对农场的感染动态很重要。至少连续两次排放粪便的动物和大量排放粪便的动物很少恢复阴性。重复的粪便 qPCR 可用于检测时间粪便排放特征,并且对动物进行淘汰的决定实际上可以基于时间和半定量结果。总的来说,我们发现粪便排放和 ELISA 血清阳性之间存在不匹配(4 次 ELISA 阴性的动物有 637 只,但 4 次 qPCR 阴性的动物只有 13%)。我们发现,有超过 2 个 ELISA 阳性样本与持续和连续排放密切相关。我们建议,尽管血清学检测的敏感性远低于 qPCR,但它也可以被使用,特别是在多次检测事件中,以识别最有可能导致农场环境污染的动物。
