Recent survey data suggest that areas of high prevalence settings exist within the country [3]. One such area being the Kafue Basin of Zambia, were the livestock/wildlife
interface forms a unique risk platform in terms of spread of infectious diseases among animals (both domestic and wild) selleck chemicals llc [4–6]. BTB is one of the most common abattoir findings during meat inspection and a significant reason for organ condemnation [7, 8]. The lack of abattoirs in most districts, coupled with the high cost of mechanized transport, entails cattle travelling long distances “”on the hoof”", sometimes passing through two or more districts before reaching the abattoirs. This kind of animal movement has been identified as the major hindrance in the control of most economically important diseases of livestock in Zambia [9]. Similarly, strains of Mycobacterium bovis may be spread across districts due to these uncontrolled animal movements. However, there is no information with regards to the molecular epidemiology of BTB in Zambia. Molecular typing find more techniques have contributed greatly to the knowledge of inter-bovine and interspecies transmission of bovine tuberculosis [10–13]. The most widely used DNA typing techniques for M. bovis include
IS6110 in restriction fragment length polymorphism (RFLP) typing [14], spacer oligonucleotide typing (Spoligotyping) [15] and variable number of tandem repeat (VNTR) typing [14–16]. RFLP is less desirable because it requires large amounts of DNA, is not based
on Polymerase Chain Reaction (PCR), is time consuming, and poorly resolve strains of M. AP26113 in vitro bovis owing to low copy numbers Rebamipide of IS6110 elements [17]. Both VNTR and Spoligotyping are PCR based, easy to perform, require little amounts of DNA, and can be used even with non-viable organisms. Spoligotyping has been more widely applied in part because it is fast and more importantly the technique can simultaneously detect and differentiate M. bovis from M. tuberculosis strains [15, 16, 18, 19]. In addition, Spoligotyping patterns can be easily compared with results from other countries by use of a freely accessible international data base [20]. The objective of this study was to determine the genetic diversity and relatedness of BTB isolates from cattle in Zambia. Results Out of the 695 carcasses examined, 98 (14.1%) tissues and organs from the carcasses had gross characteristic lesions suggestive of tuberculous lesions. When subjected to culture on pyruvate enriched Lowenstein Jensen media, only 42 (6%) of the tissues resulted in discernable colony growth with properties suggestive of mycobacteria but only 33 (4.7%) samples were acid-fast positive by smear microscopy. Out of this number, 31 isolates yielded interpretable spoligotypes of M. bovis with all the six major districts around the Kafue Basin contributing at least one isolate each; Namwala (n = 12), Lusaka (n = 6), Mumbwa (n = 5), Monze (n = 5), Mazabuka (n = 2), Choma (n = 1) (Figure 1 and Table 1).