Abstract
Background: Whole-genome sequencing (WGS) is a viable and financially feasible tool for timely and comprehensive diagnosis of drug resistance in developed countries. With the increase in the incidence of multidrug-resistant tuberculosis (MDR-TB), second-line anti-TB drugs are gaining importance. However, genetic resistance to second-line anti-TB drugs based on WGS has not been fully studied.Methods: We randomly selected 100 MDR-TB and 10 non-MDR-TB isolates from a hospital in Zhejiang Province, China. Drug susceptibility tests against 13 anti-TB drugs were performed, and 34 drug resistance-related genes were analyzed using WGS in all isolates. For each drug, the accuracy, sensitivity, specificity, and positive and negative predictive values of WGS were compared with those of the conventional drug susceptibility test.Results: The overall sensitivity and specificity for WGS were respectively, 99.0 and 100.0% for isoniazid (INH), 99.0 and 100.0% for rifampicin (RIF), 94.8 and 65.3% for ethambutol (EMB), 86.2 and 84.4% for pyrazinamide (PZA), 95.6 and 95.6% for levofloxacin (LFX), 89.5 and 65.3% for moxifloxacin (MFX), 91.3 and 95.1% for streptomycin (SM), 90.9 and 99.0% for kanamycin, 90.9 and 100.0% for amikacin, 88.9 and 98.0% for capreomycin, 87.0 and 85.1% for prothionamide (PTO), 85.7 and 99.0% for para-aminosalicylic acid (PAS), and 66.7 and 95.9% for clofazimine (CLO).Conclusions: WGS is a promising approach to predict resistance to INH, RIF, PZA, LFX, SM, second-line injectable drugs (SLIDs), and PTO with satisfactory accuracy, sensitivity, and specificity of over 85.0%. The specificity of WGS in diagnosing resistance to EMB, and high-level resistance to MFX (2.0 mg/L) needs to be improved.
Highlights
In 2017, there were ∼558,000 new cases of rifampicin-resistant tuberculosis (RR-TB) worldwide, including 82% multidrugresistant (MDR-TB) cases with resistance to isoniazid (INH), and rifampicin (RIF)
In this study, we evaluated the performance of a Whole-genome sequencing (WGS) approach for diagnosing drug susceptibility and resistance to 100 multidrug-resistant tuberculosis (MDR-TB), and 10 non-MDR-TB clinical isolates in China
100 clinical MDR Mycobacterium tuberculosis (MTB) isolates were randomly selected from preserved MDR-TB strains between January 1, 2014 and June 30, 2017 at the Sixth People’s Hospital of Wenzhou city, Zhejiang Province, China
Summary
In 2017, there were ∼558,000 new cases of rifampicin-resistant tuberculosis (RR-TB) worldwide, including 82% multidrugresistant (MDR-TB) cases with resistance to isoniazid (INH), and rifampicin (RIF). 28% of MDR/RR-TB cases have been detected worldwide (World Health Organization, 2018a). GeneXpert MTB/RIF as a sensitive and quick diagnostic tool is the recommended initial diagnostic test to detect pulmonary TB and RIF resistance (World Health Organization, 2013; Denkinger et al, 2014; Steingart et al, 2014). Line probe assays (LPAs) enable rapid drug-susceptibility testing for RIF and INH resistance and Mycobacterium tuberculosis detection. Conventional culture and drug susceptibility tests (DSTs) for second-line agents are currently still indispensable in countries with documented or suspected cases of extensive drug resistant TB (XDR-TB) to ensure quality testing of second-line agents, following the World Health Organization (WHO) policy guidance (Denkinger et al, 2014; Steingart et al, 2014). Genetic resistance to second-line anti-TB drugs based on WGS has not been fully studied
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