Translator Disclaimer
1 April 1992 PARATUBERCULOSIS IN SAIGA ANTELOPE (SAIGA TATARICA) AND EXPERIMENTAL TRANSMISSION TO DOMESTIC SHEEP
Author Affiliations +
Abstract

Mycobacterium paratuberculosis was isolated in low numbers from the small intestine and associated mesenteric lymph nodes of a saiga antelope (Saiga tatarica) using routine culture techniques in spite of histologic evidence of high numbers of acid-fast bacteria in these tissues. Two newborn domestic sheep were fed the ground intestinal tissue containing acid-fast bacteria and the progression of the experimental disease was followed by fecal culture, immunodiffusion (AGID) and lymphocyte stimulation (LST) tests. One experimentally infected sheep developed progressive clinical illness 1 yr postinoculation. Few M. paratuberculosis were isolated from feces or tissues although an extensive granulomatous mycobacterial enteritis, lymphadenitis and lymphangitis were observed containing large numbers of typical acid-fast organisms. No clinical illness was observed in the second inoculated sheep after 18 mo of observation, although infection was demonstrated at necropsy. Both sheep developed AGID and LST reactions indicative of paratuberculosis. This study demonstrated that a difficult to culture isolate of M. paratuberculosis was responsible for paratuberculosis in captive wild ruminants and was transmissible to domestic sheep. Diagnosis of paratuberculosis in four of eight of the imported saiga antelope and in eleven of their 18 offspring indicates the importance of this disease in management of captive wild ruminants and the ease with which this organism can be transmitted.

Thomas W. Dukes, Gordon J. Glover, Brian W. Brooks, J. Robert Duncan, and Mark Swendrowski "PARATUBERCULOSIS IN SAIGA ANTELOPE (SAIGA TATARICA) AND EXPERIMENTAL TRANSMISSION TO DOMESTIC SHEEP," Journal of Wildlife Diseases 28(2), 161-170, (1 April 1992). https://doi.org/10.7589/0090-3558-28.2.161
Received: 5 December 1990; Published: 1 April 1992
JOURNAL ARTICLE
10 PAGES


SHARE
ARTICLE IMPACT
Back to Top