Litcius/Paper detail

Quantification of Isoniazid-Heteroresistant Mycobacterium tuberculosis Using Droplet Digital PCR

Siqi Zhang, Xiaohong Chen, Zhonghui Lin, Yaoju Tan, Bin Liang, Yuying Pan, Mingxiang Huang, Biyi Su, Xiaoman Hu, Ye Xu, Qingge Li

2023Journal of Clinical Microbiology18 citationsDOIOpen Access PDF

Abstract

promoter mutations. All reactions could quantify 1%-50% of mutants in the presence of the wild-type, ranging from 100 to 50,000 copies/reaction. Clinical evaluation with 338 clinical isolates yielded clinical sensitivity of 94.5% (95% confidence interval [CI] = 89.1%-97.3%) and clinical specificity of 97.6% (95% CI = 94.6%-99.0%) compared with the traditional drug susceptibility testing (DST). Further clinical evaluation using 194 nucleic acid-positive MTB sputum samples revealed clinical sensitivity of 87.8% (95% CI = 75.8%-94.3%) and clinical specificity of 96.5% (95% CI = 92.2%-98.5%) in comparison with DST. All the mutant and heteroresistant samples detected by the ddPCR assay but susceptible by DST were confirmed by combined molecular assays, including Sanger sequencing, mutant-enriched Sanger sequencing and a commercial melting curve analysis-based assay. Finally, the ddPCR assay was used to monitor longitudinally the INH-resistance status and the bacterial load in nine patients undergoing treatment. Overall, the developed ddPCR assay could be an indispensable tool for quantification of INH-resistant mutations in MTB and bacterial loads in patients.

Topics & Concepts

Mycobacterium tuberculosisINHAIsoniazidDigital polymerase chain reactionDrug resistancerpoBSanger sequencingSputumTuberculosisBiologyMolecular biologyAssay sensitivityPolymerase chain reactionMicrobiologyVirologyMutationMedicinePathologyGeneticsGeneAlternative medicineTuberculosis Research and EpidemiologyMycobacterium research and diagnosisInnovative Microfluidic and Catalytic Techniques Innovation
Quantification of Isoniazid-Heteroresistant Mycobacterium tuberculosis Using Droplet Digital PCR | Litcius