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Effective pragmatic approach of diagnosis of multidrug-resistant tuberculosis by high-resolution melt curve assay.
Background: Effective management of multidrug-resistant tuberculosis (MDR-TB) requires cost-effective and rapid screening of rifampicin (RIF) and isoniazid (INH) resistance. Accordingly, a highly promising high-resolution melting (HRM) analysis was evaluated in the detection of mutation in rpoB, katG gene and inhA promoter region in Mycobacterium tuberculosis isolates.
Methods: A total of 143 M. tuberculosis isolates comprising phenotypically confirmed 94 MDR and 49 sensitive isolates were analyzed by HRM following real-time-polymerase chain reaction in comparison to gold standard of targeted DNA sequencing of rpoB, katG gene and inhA promoter region.
Results: HRM correctly identified MDR-TB by rapid and accurate detection of predominantly and infrequently occurring specific single nucleotide polymorphism in rpoB, katG gene and inhA promoter region. rpoB HRM showed sensitivity, specificity, positive predictive value (PPV) and negative predictive value (NPV) of 98% each respectively. Predominantly, S531 L/W (TCG → TTG/TGG) mutation accounted for 68.47% of RIF resistance followed by H526Y/R (13.04%, CAC → TAC/CGC), D516Y/V/G (10.86%, GAC → TAC/GTC/GGC), Q513P (4.34%, CAA → CCA), and one rare mutation at codon position L533A (CTG → CGG). Combined KatG and inhA HRM sensitivity, specificity, PPV, and NPV were 90%, 100%, 100%, and 84.48% respectively and detected frequent mutation at codon position S315T/I/N (70%, AGC → ACC, AGC → ACT, AGC → AAC) and rare mutation at codon position T314P (3.3%, ACC → CCC) and 329 (2.2%, GAC → GCC) of katG gene. In inhA, mutations were recorded at mostly promoter position - 15 (10%, C → T) and infrequently at - 8 (3.3%, T → G, T → C). HRM assay limitation noticed in recognizing silent mutation in rpoB as a mutant, nondetection of infrequent mutation S310A in katG, and the inability of detecting mutation outside the targeted region of investigated genes.
Conclusion: HRM may prove to be a vital molecular assay in rapid screening of TB cases for early detection of MDR TB, leading to early evidenced-based initiation of antitubercular treatment that will significantly reduce MDR transmission.
Methods: A total of 143 M. tuberculosis isolates comprising phenotypically confirmed 94 MDR and 49 sensitive isolates were analyzed by HRM following real-time-polymerase chain reaction in comparison to gold standard of targeted DNA sequencing of rpoB, katG gene and inhA promoter region.
Results: HRM correctly identified MDR-TB by rapid and accurate detection of predominantly and infrequently occurring specific single nucleotide polymorphism in rpoB, katG gene and inhA promoter region. rpoB HRM showed sensitivity, specificity, positive predictive value (PPV) and negative predictive value (NPV) of 98% each respectively. Predominantly, S531 L/W (TCG → TTG/TGG) mutation accounted for 68.47% of RIF resistance followed by H526Y/R (13.04%, CAC → TAC/CGC), D516Y/V/G (10.86%, GAC → TAC/GTC/GGC), Q513P (4.34%, CAA → CCA), and one rare mutation at codon position L533A (CTG → CGG). Combined KatG and inhA HRM sensitivity, specificity, PPV, and NPV were 90%, 100%, 100%, and 84.48% respectively and detected frequent mutation at codon position S315T/I/N (70%, AGC → ACC, AGC → ACT, AGC → AAC) and rare mutation at codon position T314P (3.3%, ACC → CCC) and 329 (2.2%, GAC → GCC) of katG gene. In inhA, mutations were recorded at mostly promoter position - 15 (10%, C → T) and infrequently at - 8 (3.3%, T → G, T → C). HRM assay limitation noticed in recognizing silent mutation in rpoB as a mutant, nondetection of infrequent mutation S310A in katG, and the inability of detecting mutation outside the targeted region of investigated genes.
Conclusion: HRM may prove to be a vital molecular assay in rapid screening of TB cases for early detection of MDR TB, leading to early evidenced-based initiation of antitubercular treatment that will significantly reduce MDR transmission.
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