Abstract
ObjectivesPhenotypic drug susceptibility testing for prediction of tuberculosis (TB) drug resistance is slow and unreliable, limiting individualized therapy and monitoring of national TB data. Our study evaluated whole-genome sequencing (WGS) for its predictive accuracy, use in TB drug-resistance surveillance and ability to quantify the effects of resistance-associated mutations on MICs of anti-TB drugs. MethodsWe used WGS to measure the susceptibility of 4880 isolates to ten anti-TB drugs; for pyrazinamide, we used BACTEC MGIT 960. We determined the accuracy of WGS by comparing the prevalence of drug resistance, measured by WGS, with the true prevalence, determined by phenotypic susceptibility testing. We used the Student–Newman–Keuls test to confirm MIC differences of mutations. ResultsResistance to isoniazid, rifampin and ethambutol was highly accurately predicted with at least 92.92% (95% confidence interval [CI], 88.19–97.65) sensitivity, resistance to pyrazinamide with 50.52% (95% CI, 40.57–60.47) sensitivity, and resistance to six second-line drugs with 85.05% (95% CI, 80.27–89.83) to 96.01% (95% CI, 93.89–98.13) sensitivity. The rpoB S450L, katG S315T and gyrA D94G mutations always confer high-level resistance, while rpoB L430P, rpoB L452P, fabG1 C-15T and embB G406S often confer low-level resistance or sub-epidemiological cutoff (ECOFF) MIC elevation. ConclusionWGS can predict phenotypic susceptibility with high accuracy and could be a valuable tool for drug-resistance surveillance and allow the detection of drug-resistance level; It can be an important approach in TB drug-resistance surveillance and for determining therapeutic schemes.
Highlights
The vision of the End TB Strategy proposed by the World Health Organization (WHO) is a tuberculosis (TB) -free world by the year 2035 [1]
whole-genome sequencing (WGS) combined with quantitative MIC measurements, our results showed that WGS is highly accurate at predicting phenotypic resistance
The resistance rate detected by WGS was much higher than with phenotypic testing
Summary
The vision of the End TB Strategy proposed by the World Health Organization (WHO) is a tuberculosis (TB) -free world by the year 2035 [1]. The emergence and wide spread of drugresistant TBdespecially multidrug-resistant TB, and extensively drug-resistant TBdis a major block to attaining this goal. In 2019, about 465 000 cases of rifampicin-resistant TB were estimated to have emerged, of which 78% were multidrug-resistant TB, but because of limited access to drug susceptibility testing (DST), only 38% of these patients received diagnoses and were treated [2]. WHO urgently recommends universal implementation of y Dongxin Liu, Fei Huang, Guoliang Zhang, Wencong He and Xichao Ou contributed to this work. D. Liu et al / Clinical Microbiology and Infection xxx (xxxx) xxx
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