Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes

Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes

© 2015 Pholwat et al. Genotypic methods for drug susceptibility testing of Mycobacterium tuberculosis are desirable to speed the diagnosis and proper therapy of tuberculosis (TB). However, the numbers of genes and polymorphisms implicated in resistance have proliferated, challenging diagnostic desig...

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Main Authors: Suporn Pholwat, Jie Liu, Suzanne Stroup, Jean Gratz, Sayera Banu, S. M. Mazidur Rahman, Sara Sabrina Ferdous, Suporn Foongladda, Duangjai Boonlert, Oleg Ogarkov, Svetlana Zhdanova, Gibson Kibiki, Scott Heysell, Eric Houpt
Other Authors: University of Virginia
Format: Article
Published: 2018
Subjects:
Immunology and Microbiology
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/36123
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spelling th-mahidol.361232018-11-23T17:18:19Z Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes Suporn Pholwat Jie Liu Suzanne Stroup Jean Gratz Sayera Banu S. M. Mazidur Rahman Sara Sabrina Ferdous Suporn Foongladda Duangjai Boonlert Oleg Ogarkov Svetlana Zhdanova Gibson Kibiki Scott Heysell Eric Houpt University of Virginia International Centre for Diarrheal Diseases and Research Mahidol University Siberian Branch, Russian Academy of Sciences Regional TB-Prevention Dispensary Kilimanjaro Clinical Research Institute Immunology and Microbiology © 2015 Pholwat et al. Genotypic methods for drug susceptibility testing of Mycobacterium tuberculosis are desirable to speed the diagnosis and proper therapy of tuberculosis (TB). However, the numbers of genes and polymorphisms implicated in resistance have proliferated, challenging diagnostic design. We developed a microfluidic TaqMan array card (TAC) that utilizes both sequencespecific probes and high-resolution melt analysis (HRM), providing two layers of detection of mutations. Twenty-seven primer pairs and 40 probes were designed to interrogate 3,200 base pairs of critical regions of the inhA, katG, rpoB, embB, rpsL, rrs, eis, gyrA, gyrB, and pncA genes. The method was evaluated on 230 clinical M. tuberculosis isolates from around the world, and it yielded 96.1% accuracy (2,431/2,530) in comparison to that of Sanger sequencing and 87% accuracy in comparison to that of the slow culture-based susceptibility testing. This TAC-HRM method integrates assays for 10 genes to yield fast, comprehensive, and accurate drug susceptibility results for the 9 major antibiotics used to treat TB and could be deployed to improve treatment outcomes. IMPORTANCE Multidrug-resistant tuberculosis threatens global tuberculosis control efforts. Optimal therapy utilizes susceptibility test results to guide individualized treatment regimens; however, the susceptibility testing methods in use are technically difficult and slow. We developed an integrated TaqMan array card method with high-resolution melt analysis that interrogates 10 genes to yield a fast, comprehensive, and accurate drug susceptibility result for the 9 major antituberculosis antibiotics. IMPORTANCE Multidrug-resistant tuberculosis threatens global tuberculosis control efforts. Optimal therapy utilizes susceptibility test results to guide individualized treatment regimens; however, the susceptibility testing methods in use are technically difficult and slow. We developed an integrated TaqMan array card method with high-resolution melt analysis that interrogates 10 genes to yield a fast, comprehensive, and accurate drug susceptibility result for the 9 major antituberculosis antibiotics. 2018-11-23T10:18:19Z 2018-11-23T10:18:19Z 2015-02-24 Article mBio. Vol.6, No.2 (2015) 10.1128/mBio.02273-14 21507511 21612129 2-s2.0-84929381733 https://repository.li.mahidol.ac.th/handle/123456789/36123 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84929381733&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Immunology and Microbiology
spellingShingle Immunology and Microbiology
Suporn Pholwat
Jie Liu
Suzanne Stroup
Jean Gratz
Sayera Banu
S. M. Mazidur Rahman
Sara Sabrina Ferdous
Suporn Foongladda
Duangjai Boonlert
Oleg Ogarkov
Svetlana Zhdanova
Gibson Kibiki
Scott Heysell
Eric Houpt
Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
description © 2015 Pholwat et al. Genotypic methods for drug susceptibility testing of Mycobacterium tuberculosis are desirable to speed the diagnosis and proper therapy of tuberculosis (TB). However, the numbers of genes and polymorphisms implicated in resistance have proliferated, challenging diagnostic design. We developed a microfluidic TaqMan array card (TAC) that utilizes both sequencespecific probes and high-resolution melt analysis (HRM), providing two layers of detection of mutations. Twenty-seven primer pairs and 40 probes were designed to interrogate 3,200 base pairs of critical regions of the inhA, katG, rpoB, embB, rpsL, rrs, eis, gyrA, gyrB, and pncA genes. The method was evaluated on 230 clinical M. tuberculosis isolates from around the world, and it yielded 96.1% accuracy (2,431/2,530) in comparison to that of Sanger sequencing and 87% accuracy in comparison to that of the slow culture-based susceptibility testing. This TAC-HRM method integrates assays for 10 genes to yield fast, comprehensive, and accurate drug susceptibility results for the 9 major antibiotics used to treat TB and could be deployed to improve treatment outcomes. IMPORTANCE Multidrug-resistant tuberculosis threatens global tuberculosis control efforts. Optimal therapy utilizes susceptibility test results to guide individualized treatment regimens; however, the susceptibility testing methods in use are technically difficult and slow. We developed an integrated TaqMan array card method with high-resolution melt analysis that interrogates 10 genes to yield a fast, comprehensive, and accurate drug susceptibility result for the 9 major antituberculosis antibiotics. IMPORTANCE Multidrug-resistant tuberculosis threatens global tuberculosis control efforts. Optimal therapy utilizes susceptibility test results to guide individualized treatment regimens; however, the susceptibility testing methods in use are technically difficult and slow. We developed an integrated TaqMan array card method with high-resolution melt analysis that interrogates 10 genes to yield a fast, comprehensive, and accurate drug susceptibility result for the 9 major antituberculosis antibiotics.
author2 University of Virginia
author_facet University of Virginia
Suporn Pholwat
Jie Liu
Suzanne Stroup
Jean Gratz
Sayera Banu
S. M. Mazidur Rahman
Sara Sabrina Ferdous
Suporn Foongladda
Duangjai Boonlert
Oleg Ogarkov
Svetlana Zhdanova
Gibson Kibiki
Scott Heysell
Eric Houpt
format Article
author Suporn Pholwat
Jie Liu
Suzanne Stroup
Jean Gratz
Sayera Banu
S. M. Mazidur Rahman
Sara Sabrina Ferdous
Suporn Foongladda
Duangjai Boonlert
Oleg Ogarkov
Svetlana Zhdanova
Gibson Kibiki
Scott Heysell
Eric Houpt
author_sort Suporn Pholwat
title Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
title_short Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
title_full Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
title_fullStr Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
title_full_unstemmed Integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
title_sort integrated microfluidic card with taqman probes and high- resolution melt analysis to detect tuberculosis drug resistance mutations across 10 genes
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/36123
_version_ 1763497627661369344

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