Detection of M paratuberculosis infection in young cattle continues to be difficult using current tests.
The distribution and prevalence of strains of Mycobacterium avium subsp. paratuberculosis were determined among sheep, cattle, and other species with Johne's disease in Australia. A total of 328 isolates were evaluated from numerous farms in New South Wales, Victoria, Tasmania, and South Australia, Australia. Restriction fragment length polymorphism (RFLP) analysis of genomic DNA usingBstEII and an IS900 probe and IS1311 polymorphism analysis using PCR and restriction endonuclease analysis (PCR-REA) was used to classify isolates as cattle (C) or sheep (S) strains. IS1311 PCR-REA provided similar information to IS900 RFLP analysis but was more useful than RFLP analysis where DNA was degraded or scarce. Twelve IS900 RFLP types were found. Johne's disease in sheep was always due to S strains, while cattle were infected only with C strains. RFLP type S1 was the dominant strain in sheep in New South Wales (97% of isolates) and was the only strain found in sheep from Victoria. Seven RFLP types were present in cattle. RFLP types C3 and C1 were most common (collectively, 85% of isolates), but C1 was not found in New South Wales and C3 was present in dairy cattle but not in beef cattle in Victoria. These differences may be explained by restricted livestock trading patterns between different segments of the cattle industry. Up to five RFLP types were present in some geographic regions in Victoria, while up to three RFLP types were found among cattle on some farms. Individual cattle usually were infected with only one RFLP type, but one animal was infected with both C5 and CU4. Two isolates from goats were C type as were three from alpacas, one from a rhinoceros, and two from a human with Crohn's disease. The prevalences of specific RFLP types in Australia differ from those reported in Europe and elsewhere. Given the existence of geographical and farm enterprise differences in IS900 RFLP type, this technique may be applied selectively to trace the spread of Johne's disease, at least in the cattle industries. As these observations reflect past exposure of livestock to M. avium subsp.paratuberculosis, the monitoring of strains present in animals in Australia is continuing.
The epidemiological features of M paratuberculosis in Australia are similar to those reported in New Zealand, where cattle and sheep are commonly infected with different strains. However, because of the lack of polymorphism identified within the major groups, it is unlikely that DNA fingerprinting will have a significant role in epidemiological studies of Johne's disease, unless an unusual strain in being studied.
The AGID test and absorbed ELISA are useful tests for the detection of ovine paratuberculosis. Although the tests had a similar accuracy, they detected different subpopulations of infected sheep with only moderate overlap. The AGID test had a higher specificity than the absorbed ELISA.
Abstract. An investigation was conducted for Mycobacterium avium ss paratuberculosis infections in a research herd of llamas and alpacas. Herd culture-negative status was established over a 23-month period by screening any individuals with any signs compatible with paratuberculosis (n ϭ 1), high serology values (n ϭ 8), or other health and research related reasons (n ϭ 24). There were no M. avium ss paratuberculosis isolates from radiometric cultures of multiple tissue and fecal samples from these individuals and no known sources of exposure. Paratuberculosis is uncommon in North American llamas and alpacas: only 5 cases were identified after an extensive search of the Veterinary Medical Data Base, diagnostic laboratory records, publication databases, and personal communications. Therefore, serum samples from llamas (n ϭ 84) and alpacas (n ϭ 16) in the culture-negative herd were used to obtain preliminary estimates of test specificity for 3 enzyme-linked immunoassays (ELISAs) and an agar gel immunodiffusion (AGID) assay kit for detecting serum antibodies to M. avium ss paratuberculosis in South American camelids. The ELISAs were modifications of established bovine assays for antibody detection. With provisional cutoffs, ELISA-A had 52 false positives (specificity 48%), ELISA-B had 8 false positives (specificity 92%), ELISA-C had two false positives (specificity 98%), and the AGID had 0 false positives (specificity 100%). The range of ELISA values for culture-positive llamas and alpacas (n ϭ 10) from other herds overlapped the range of values for culture-negative llamas and alpacas. The accuracy of the ELISAs may be improved by using age-and sex-specific cutoffs because uninfected male llamas and alpacas that were older than 1 year had higher values for some tests. These tests can be used for either llamas or alpacas; the protein-G conjugate ELISA (ELISA-B) may be useful for multispecies applications. These assays are best used for rapid presumptive diagnoses of llamas and alpacas with diarrhea and weight loss and as a screening tool for herds known to be exposed to infection. All seropositive results should be confirmed with culture.Recent reports have demonstrated that paratuberculosis is a potential health risk for South American camelids. 2,13 An ongoing outbreak in Australian alpacas (Lama paca) 13 has illustrated that, as in bovine herds, 8 when paratuberculosis is introduced into a previously unexposed herd, much of the herd can become infected prior to any animals showing clinical signs of disease. North American llamas (Lama glama) have been reported with culture-confirmed infections. 2 Because llamas and alpacas constitute a significant industry worldwide and because the value of individual animals can be substantial, paratuberculosis could cause severe economic losses if the disease becomes Received for publication September 29, 1998. established in the industry. Because llama and alpaca importations and animal transfers among herds are important to the genetic and economic health of the llama and a...
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