The detection of Mycobacterium bovis (M. bovis) in environmental samples with precision is imperative to control bovine tuberculosis (bTB) infections at the herd level, as residual M. bovis remains one of the major causes of recurring infections. In this study, a nested PCR method for the detection of M. bovis in environmental samples was applied to identify potential environmental reservoirs of the bacterium. A set of 200 environmental samples (167 fecal samples and 33 water samples) from 39 herds with a history of bTB outbreak was analyzed using a nested PCR method to detect residual M. bovis. Amplicon libraries of the IS6110 target gene fragment were amplified from M. bovis DNA using two established primer sets. A positive nested PCR result was observed in 69.5% of fecal samples and 66.7% of water samples, thus showing that residual M. bovis was present in the environmental samples of bTB-positive herds in a high proportion. This study is the first to demonstrate high levels of M. bovis DNA in environmental samples and to show that environmental reservoirs of this pathogen contribute to recurring outbreaks of bTB. Environmental monitoring of herds in which bTB outbreaks have occurred with high sensitivity and specificity is expected to help prevent the recurrence of potential bTB disease and improve the herd environment.

The aim of the present study was to evaluate the use of an immunochromatographic test (ICT) strip using recombinant MPB70 (rMPB70) protein as a complementary tool for the diagnosis of naturally occurring tuberculosis in cattle. The study was performed on 249 cattle from populations known to be free from Mycobacterium bovis (M. bovis) and 119 cattle with M. bovis infection, confirmed postmortem. Compared to reference standards (culture isolation and/or visible lesion), the sensitivity of ICT was 94.12% (95% CI: 89.89∼98.35%) while the specificity was 96.80% (95% CI; 94.62∼96.82%). The findings indicate that the ICT strip is efficient for diagnosing bovine tuberculosis in cattle from Korea.

Tuberculosis (TB) is a significant disease for both humans and animals worldwide. The genus Mycobacterium includes several species that cause TB disease in humans and other animals. Amongst the members of the Mycobacterium tuberculosis complex (MTC), M. tuberculosis is mainly a human pathogen, whereas M. bovis has a broad host range and is the principal agent responsible for TB in domestic and wild mammals. M. bovis also infects humans, causing zoonotic TB through ingestion, inhalation. M. bovis accounts for only a small percentage of the reported cases of TB in humans. In recent years, TB in farmed deer has become a disease as public health importance in several countries. Nowadays, there has been rapid outbreak of bovine TB in cattle and deer in Korea. Investigations are needed to elucidate the relative importance of M. bovis on TB incidence in humans, especially in Korea where bovine TB remains a problem. Also, the human sources as the cause of animal infection, M. tuberculosis from the farm workers also important for TB control of animals in Korea. Differentiation between the causative organisms may only be achieved by sophisticated laboratory methods involving bacteriological characteristics, biochemical properties, and routine resistance to pyrazinamide (PZA). M. bovis shows inherently resistant to PZA whereas M. tuberculosis is susceptible to PZA. In this study, we developed a multiplex-PCR assay based on a 12.7-kb fragment for the differential detection of M. bovis and M. tuberculosis. A total of 131 M. tuberculosis complex isolates were randomly obtained from cattle and deers that were PPD positive. they all yielded M. bovis. M. tuberculosis was not isolated from animals. and, a total of 25 M. tuberculosis complex isolates which is resistant to PZA were obtained from patient. PZA resistant MTC in humans was caused entirely by M. tuberculosis. The multiplex-PCR protocol was highly species-specific and time saving for identification of M. bovis and M. tuberculosis. This multiplex-PCR assay will be easily used as a routine monitoring tool in veterinary and medical laboratories.