First Evaluation of Drug-Resistant Mycobacterium tuberculosis Clinical Isolates from Congo Revealed Misdetection of Fluoroquinolone Resistance by Line Probe Assay Due to a Double Substitution T80A-A90G in GyrA

Aubry, Alexandra; Sougakoff, Wladimir; Bodzongo, Pamela; Delcroix, Guy; Armand, Sylvie; Millot, G.; Jarlier, Vincent; Courcol, René; Lemaître, Nadine

doi:10.1371/journal.pone.0095083

Cited by 28 publications

(28 citation statements)

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“…Six percent of FQ resistance, as classified by MTBDRsl, was due to the sole absence of WT probe hybridization. Our results contrast significantly with the results of two studies conducted in the Congo and the Democratic Republic of Congo, where over 60% of FQ resistance was attributable to the sole absence of WT probe hybridization (17,18). Our results more closely resemble those reported by Brossier et al (33) and Huang et al (34), in which less than 20% of FQ resistance was attributable to the sole absence of WT probe hybridization.…”

Section: Discussioncontrasting

confidence: 80%

“…(ii) If no MUT probes hybridize on the test strip and one or more WT probes also do not hybridize, the presence of an unknown mutation in that region is inferred, and the specimen is classified as resistant. Two recent studies assessing the performance of the MTBDRsl assay detected an unusually high proportion of FQresistant specimens that were eventually determined to be falsely positive after comparison to sequencing and/or conventional culture results (17,18). False-positive (FP) FQ resistance results from the two studies were determined to be the result of absent WT probe hybridization (interpreted to mean the presence of a nonwild-type or unknown mutation sequence) rather than direct detection of a known mutation (17,18).…”

mentioning

confidence: 99%

“…Two recent studies assessing the performance of the MTBDRsl assay detected an unusually high proportion of FQresistant specimens that were eventually determined to be falsely positive after comparison to sequencing and/or conventional culture results (17,18). False-positive (FP) FQ resistance results from the two studies were determined to be the result of absent WT probe hybridization (interpreted to mean the presence of a nonwild-type or unknown mutation sequence) rather than direct detection of a known mutation (17,18). Given the significant impact of FQ resistance on MDR-TB treatment and the potential for the sole absence of WT probe hybridization to increase the number of false-positive test results, we analyzed individual probe performance to further understand the underlying subtleties of the MTBDRplus v2 and MTBDRsl assay results (19).…”

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confidence: 99%

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MTBDR plus and MTBDR sl Assays: Absence of Wild-Type Probe Hybridization and Implications for Detection of Drug-Resistant Tuberculosis

et al. 2016

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e Accurate identification of drug-resistant Mycobacterium tuberculosis is imperative for effective treatment and subsequent reduction in disease transmission. Line probe assays rapidly detect mutations associated with resistance and wild-type sequences associated with susceptibility. Examination of molecular-level performance is necessary for improved assay result interpretation and for continued diagnostic development. Using data collected from a large, multisite diagnostic study, probe hybridization results from line probe assays, MTBDRplus and MTBDRsl, were compared to those of sequencing, and the diagnostic performance of each individual mutation and wild-type probe was assessed. Line probe assay results classified as resistant due to the absence of wild-type probe hybridization were compared to those of sequencing to determine if novel mutations were inhibiting wild-type probe hybridization. The contribution of absent wild-type probe hybridization to the detection of drug resistance was assessed via comparison to a phenotypic reference standard. In our study, mutation probes demonstrated significantly higher specificities than wild-type probes and wild-type probes demonstrated marginally higher sensitivities than mutation probes, an ideal combination for detecting the presence of resistance conferring mutations while yielding the fewest number of false-positive results. The absence of wild-type probe hybridization without mutation probe hybridization was determined to be primarily the result of failure of mutation probe hybridization and not the result of novel or rare mutations. Compared to phenotypic culture-based drug susceptibility testing, the absence of wild-type probe hybridization without mutation probe hybridization significantly contributed to the detection of phenotypic rifampin and fluoroquinolone resistance with negligible increases in false-positive results. While the number of incident cases of tuberculosis (TB) has been steadily declining over the past decade, the prevalence of drug-resistant disease threatens to reverse these declines (1, 2). The World Health Organization (WHO) estimated that, in 2014, 3.3% of new and 20% of previously treated TB cases were multidrug-resistant (MDR) or were resistant to isoniazid (INH) and rifampin (RIF) (3). Furthermore, 9.7% of these MDR cases were extensively drug resistant (XDR) or were resistant to at least one fluoroquinolone (FQ) in addition to a second-line injectable drug (SLID), amikacin (AMK), kanamycin (KAN), or capreomycin (CAP). Although detection of M/XDR-TB is imperative for effective disease management, less than half of all MDR-TB cases were detected in 2014 (2-4). This detection gap is due, in part, to the lack of low-cost, rapid, and accurate diagnostic technologies for M/XDR-TB (4-6).Conventional culture-based phenotypic drug susceptibility testing (DST) methods can take months to yield results (7). Molecular-based tests, however, can produce results in Ͻ1 day (5,(8)(9)(10)(11)(12). The WHO has endorsed line probe hybridization and mole...

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Section: Discussioncontrasting

confidence: 80%

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confidence: 99%

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confidence: 99%

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MTBDR plus and MTBDR sl Assays: Absence of Wild-Type Probe Hybridization and Implications for Detection of Drug-Resistant Tuberculosis

et al. 2016

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“…Previous studies have demonstrated that these substitutions, commonly identified in African countries such as Republic of the Congo, do not confer resistance and are thus responsible for misclassification of FQ resistance by line probe assay (23,24). This problem, already encountered with MTBDRsl v1, could be avoided by inclusion of a comment in the recommendations for interpretation of MTBDRsl v2.0 results in case of the absence of the WT2 probe.…”

Section: Discussionmentioning

confidence: 99%

Performance of the New Version (v2.0) of the GenoType MTBDR sl Test for Detection of Resistance to Second-Line Drugs in Multidrug-Resistant Mycobacterium tuberculosis Complex Strains

et al. 2016

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“…Rapid identification is essential to initiate early treatment, improve patient's outcomes, and more effective for public health interventions [5]. Therefore, molecular assays have been used to predict drug resistance in clinical specimens within one working day and are potentially the most rapid methods [6][7][8][9][10]. The GeneXpert MTB/RIF assay is a novel integrated diagnostic device that performs sample processing and semi-nested real-time PCR analysis in a single hands-free step for the diagnosis of tuberculosis and rapid detection of RIF resistance in clinical specimens [4,10].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of GeneXpert MTB/RIF and line probe assay for rapid diagnosis of Mycobacterium tuberculosis in Sudanese pulmonary TB patients

Ali¹,

Ibrahim²,

Elegail³

et al. 2017

APJTD

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First Evaluation of Drug-Resistant Mycobacterium tuberculosis Clinical Isolates from Congo Revealed Misdetection of Fluoroquinolone Resistance by Line Probe Assay Due to a Double Substitution T80A-A90G in GyrA

Cited by 28 publications

References 30 publications

MTBDR plus and MTBDR sl Assays: Absence of Wild-Type Probe Hybridization and Implications for Detection of Drug-Resistant Tuberculosis

MTBDR plus and MTBDR sl Assays: Absence of Wild-Type Probe Hybridization and Implications for Detection of Drug-Resistant Tuberculosis

Performance of the New Version (v2.0) of the GenoType MTBDR sl Test for Detection of Resistance to Second-Line Drugs in Multidrug-Resistant Mycobacterium tuberculosis Complex Strains

Evaluation of GeneXpert MTB/RIF and line probe assay for rapid diagnosis of Mycobacterium tuberculosis in Sudanese pulmonary TB patients

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