Objectives: Rifampicin (RIF) and isoniazid (INH) are the two most effective first-line antibiotic drugs for the treatment of tuberculosis (TB). The new FluoroType MTBDR (FT-MTBDR) real-time PCR is intended to detect INH and RIF resistance mutations as a second step following a primary Mycobacterium tuberculosis complex (MTBC) PCR. Here we evaluate the feasibility of the FT-MTBDR assay to detect simultaneously MTBC-specific DNA as well as to detect potential INH and RIF resistance through analysing inhA promotor, katG and rpoB sequences in one PCR reaction.
Methods: We analysed 3885 consecutive primary samples with FT-MTBDR and compared the results with microscopy and culture: 978 were from sputum, 2007 from other respiratory tract locations plus gastric lavages, and 875 from extrapulmonary locations, respectively.
Results: Overall, 176 samples were MTBC culture positive and 139 FT-MTBDR positive, providing a FT-MTBDR sensitivity of 0.714 (95% confidence interval 0.640-0.779) and specificity of 0.996 (0.994-0.998), respectively. For the 978 sputum, 96 were MTBC culture positive and 89 FT-MTBDR positive, sensitivity 0.854 (0.764-0.915) and specificity 0.992 (0.983-0.997). Of the 139 MTBC positive, 99 (71%) had interpretable genotypic resistance results for at least one drug, 92 (66%) for both drugs.
Discussion: The ability of FT-MTBDR to detect MTBC is adequate with the significant added feature of simultaneous genotypic resistance detection of both INH and RIF in a single PCR reaction.
Keywords: Early resistance detection; FluoroType; Isoniazid; Mutation analysis; Mycobacterium tuberculosis; PCR; Resistance; Rifampicin.
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