Molecular typing and differentiation of Mycobacterium tuberculosis clinical isolates using Double Repetitive Element PCR and Duplex PCR.

BACKGROUND: To date, the advancements in polymerase chain reaction (PCR) assures accurate, fast identification and mycobacterial speciation in clinical settings, which promotes a better tuberculosis (TB) treatment regimen. METHODS: In this study, a total of 78 clinically suspected cases of TB were processed for the detection of Mycobacterial infections by standard Ziehl Neelsen (ZN) staining, conventional Lowenstein-Jensen (LJ) and BACTEC MGIT-960™ liquid culture. Strain typing was performed by using Double Repetitive Element PCR (DRE-PCR) and Duplex PCR (DPCR) to differentiate Mycobacterium tuberculosis complex (MTB) from non-tuberculous mycobacteria (NTM), respectively. RESULTS: Of 78 clinical isolates, 25 (32%) were drug-susceptible, and 53 (68%) were resistant to at least one drug. The BACTEC MGIT-960™ showed the highest (88.5%) positivity rate, compared with conventional LJ (82%) and ZN smear (61.5%). The mean time detection and drug susceptibility for MTB was 28 and 40days in LJ culture, and 10 and 13 days in BACTEC MGIT-960™ culture. Using DPCR, Mycobacterium avium infection was identified in HIV-positive (2.56%) and MTB in HIV-negative patients (97.4%), and the DRE-PCR system divulged 15 unique genotype patterns, and an institutional-based epidemiology database was created. CONCLUSIONS: The combination of an in-house DRE-DPCR system could possibly identify and differentiate MTB from other mycobacterial species in a single reaction. In addition, restriction polymorphism analysis and DNA sequencing of NTM could assist in species identification directly from clinical isolates.

Clinical evaluation of mtp40 polymerase chain reaction for the diagnosis of extra pulmonary tuberculosis.

Rapid and sensitive detection of Mycobacterium tuberculosis from patient samples is vital for clinical diagnosis and treatment. The emergence of M. tuberculosis strains with either no copies or only a single copy of IS6110 in Asian countries makes the standard PCR based diagnosis of M. tuberculosis using IS6110 not reliable. We studied the diagnostic efficacy of the in-house PCR amplification of the candidate gene mtp40 as an alternative to IS6110 element based diagnosis. Clinical samples included pulmonary and extra-pulmonary specimens from TB suspected patients residing in Puducherry, South India and were analyzed using in-house PCR procedures targeting IS6110 element and mtp40 genes. Out of 317 clinical specimens analyzed, 132 (41.6 %) and 114 (36 %) were found positive for mtp40 PCR and IS6110 PCR, respectively. However, 18 specimens that were found to negative for IS6110 PCR were found positive for mtp40 PCR, which was further confirmed by DNA sequencing method. PCR amplification of mtp40 gene for the diagnosis of M. tuberculosis in clinical samples is fast, sensitive, and further identified clinical strains that lack IS6110 element in this region. It is clearly demonstrated that there is a significant difference between the two PCR procedures and the sensitivity and specificity levels of mtp40 PCR were found to be higher when compared with DNA sequencing method. Thus, mtp40 based PCR technique will be beneficial in diagnosis of TB where M. tuberculosis strains lack of IS6110 element is predominant.