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Rifampicin resistance missed in automated liquid culture system for Mycobacterium tuberculosis with specific rpoB-mutations

Journal Contribution - Journal Article

WHO-endorsed phenotypic drug-susceptibility-testing (DST) methods for Mycobacterium tuberculosis are assumed to be the gold standard for identifying rifampicin (RMP) resistance. However, previous results indicate that low-level - yet probably clinically relevant - RMP resistance linked to specific rpoB mutations is easily missed by some growth-based methods. We aimed to compare the level of resistance on Lowenstein-Jensen (LJ) medium with resistance detected by the BACTEC MGIT 960 automated system (MGIT-DST) for various rpoB mutants. Full agreement between LJ and MGIT-DST was observed for mutations located at codons 513 (Lys or Pro) and 531 (Leu, Trp), which were always resistant by both methods. For mutations 511Pro, 516Tyr, 533Pro, 572Phe and several 526 mutations, LJ and MGIT results were highly discordant, MGIT-DST failing to give a result or declaring the strains susceptible.Our data show that phenotypic RMP-resistance testing of M. tuberculosis is not a binary phenomenon for some rpoB mutations, and that the widely used automated MGIT960 is prone to miss some RMP resistance conferring mutations, while careful DST on LJ missed hardly any. Given the association of these mutations with poor clinical outcome, our findings suggest that the gold standard for rifampicin resistance should be reconsidered, to address the present confusion caused by discrepancies between phenotypic and genotypic results. The impact of these mutations will depend on the frequency of their occurrence, which may vary from one setting to another.
Journal: Journal of Clinical Microbiology
ISSN: 0095-1137
Issue: 8
Volume: 51
Pages: 2641-2645
Publication year:2013
Keywords:Bacterial diseases, Tuberculosis, Mycobacterium tuberculosis, Drug resistance, Rifampicin, Drug susceptibility, Test, Phenotyping, Mutations, Gold standard, Laboratory techniques and procedures
  • Scopus Id: 84880576143
  • PubMed Id: 23761146