Re-evaluation of critical concentrations of antituberculosis fluoroquinolones in the Mycobacteria Growth Indicator Tube 960 system.

IF 1.6 Q4 INFECTIOUS DISEASES International Journal of Mycobacteriology Pub Date : 2023-07-01 DOI:10.4103/ijmy.ijmy_144_23
Praharshinie Rupasinghe, Michele Driesen, Jens Vereecken, Bouke C de Jong, Leen Rigouts
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Abstract

Background: Fluoroquinolones (FQs) have substantial activity against the Mycobacterium tuberculosis complex (MTBc) by preventing bacterial DNA synthesis through DNA gyrase inhibition. The reference standard for FQ-resistance testing is phenotypic drug-susceptibility testing (pDST) based on growth inhibition of MTBc in drug-containing Mycobacteria Growth Indicator Tube system (MGIT) media at a critical concentration (CC) that differentiates phenotypically wild-type from nonwild-type MTBc and at a clinical breakpoint that identifies strains that will likely still respond to treatment at higher doses. Despite the recent introduction of powerful new TB drugs, highly sensitive detection of clinically defined FQ resistance remains key.

Method: In this study, we re-evaluated the current WHO-recommended CCs of Lfx (1.0 mg/ml), Mfx (0.25 mg/ml), Gfx (0.25 μg/ml), and the nowadays, obsolete CC of Ofx (2.0 mg/ml) for MGIT, using 147 MTBc isolates with known gyrA and gyrB sequences including both high-and low-level FQ resistance-conferring mutants. We tested a wide range of drug concentrations covering the current and former/obsolete WHO-recommended CCs for FQs and some intermediate concentrations to challenge the current WHO-recommended CCs.

Results: The specificity of all four CCs was 100%. The sensitivities varied: 92.4% for Ofx and Lfx, 85.7% for Mfx, and 83.2% for Gfx. Lowering the CC of Mfx to 0.125 mg/ml would allow to correctly classify all wild-type and mutant isolates while lowering the CC of Gfx to 0.125 mg/ml would still misclassify some gyrA/gyrB mutants as susceptible.

Conclusion: Based on our findings, a minimal inhibitory concentration of 0.125 mg/ml on MGIT medium is a more appropriate CC for Mfx and probably also as a surrogate for overall FQ resistance in the MTBc.

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分枝杆菌生长指示管960系统中抗结核氟喹诺酮类药物临界浓度的重新评估。
背景:氟喹诺酮类药物通过抑制DNA聚合酶抑制细菌DNA合成,对结核分枝杆菌复合物(MTBc)具有显著的抗结核活性。FQ耐药性测试的参考标准是表型药物敏感性测试(pDST),基于在含有药物的分枝杆菌生长指示管系统(MGIT)培养基中,在区分表型野生型和非野生型MTBc的临界浓度(CC)下,以及在鉴定可能仍对更高剂量的治疗。尽管最近推出了强大的新型结核病药物,但对临床定义的FQ耐药性的高灵敏度检测仍然是关键。方法:在本研究中,我们使用147个已知gyrA和gyrB序列的MTBc分离株,包括高和低水平的FQ耐药突变株,重新评估了目前世界卫生组织推荐的Lfx(1.0mg/ml)、Mfx(0.25mg/ml)、Gfx(0.25μg/ml)和Ofx(2.0mg/ml)的CC用于MGIT。我们测试了多种药物浓度,包括当前和以前/过时的WHO推荐的FQ CC,以及一些中等浓度,以挑战当前的WHO推荐CC。结果:所有四种CC的特异性均为100%。灵敏度各不相同:Ofx和Lfx为92.4%,Mfx为85.7%,Gfx为83.2%。将Mfx的CC降低到0.125mg/ml将允许正确地对所有野生型和突变体分离株进行分类,而将Gfx的CC降低到0.125/ml仍将错误地将一些gyrA/gyrB突变体分类为易感的。结论:根据我们的研究结果,在MGIT培养基上0.125mg/ml的最小抑制浓度是对Mfx更合适的CC,并且可能也是MTBc中总FQ耐药性的替代品。
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来源期刊
CiteScore
2.20
自引率
25.00%
发文量
62
审稿时长
7 weeks
期刊最新文献
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