The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis

the CRyPTIC Consortium; the Seq&Treat Consortium; Timothy M. Walker; Paolo Miotto; Claudio U. Köser; Philip W. Fowler; Jeff Knaggs; Zamin Iqbal; Martin Hunt; Leonid Chindelevitch; Maha R. Farhat; Daniela Maria Cirillo; Iñaki Comas; James Posey; Shaheed V. Omar; Timothy E.A. Peto; Anita Suresh; Swapna Uplekar; Sacha Laurent; Rebecca E. Colman; Carl Michael Nathanson; Matteo Zignol; Ann Sarah Walker; Derrick W. Crook; Nazir Ismail; Timothy C. Rodwell

doi:10.1016/S2666-5247(21)00301-3

The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis

the CRyPTIC Consortium
, the Seq&Treat Consortium
, Timothy M. Walker
, Paolo Miotto
, Claudio U. Köser
, Philip W. Fowler
, Jeff Knaggs
, Zamin Iqbal
, Martin Hunt
, Leonid Chindelevitch
, Maha R. Farhat
, Daniela Maria Cirillo
, Iñaki Comas
, James Posey
, Shaheed V. Omar
, Timothy E.A. Peto
, Anita Suresh
, Swapna Uplekar
, Sacha Laurent
, Rebecca E. Colman

Carl Michael Nathanson, Matteo Zignol, Ann Sarah Walker, Derrick W. Crook, Nazir Ismail, Timothy C. Rodwell

Liverpool School of Tropical Medicine

University of Oxford
San Raffaele Scientific Institute
University of Cambridge
European Molecular Biology Laboratory
Imperial College London
Harvard University
CSIC - Institute of Biomedicine of Valencia
Instituto de Salud Carlos III
Centers for Disease Control and Prevention
National Health Laboratory Services
NIHR Oxford Biomedical Research Centre
FIND
World Health Organization
University of California at San Diego
Research Center Borstel - Leibniz Lung Center
Fundação Oswaldo Cruz
Instituto Adolfo Lutz
Stanford University
Africa Health Research Institute
Scottish Mycobacteria Reference Laboratory
Yale University
Universidad Peruana Cayetano Heredia
Wadsworth Center for Laboratories and Research
Chinese Center for Disease Control and Prevention
Gates Foundation
UK Health Security Agency
Vita-Salute San Raffaele University
University of Sydney
Public Health Agency of Sweden
University of British Columbia
Public Health Ontario

Research output: Contribution to journal › Article › peer-review

221 Citations (Scopus)

Abstract

Background
Molecular diagnostics are considered the most promising route to achievement of rapid, universal drug susceptibility testing for Mycobacterium tuberculosis complex (MTBC). We aimed to generate a WHO-endorsed catalogue of mutations to serve as a global standard for interpreting molecular information for drug resistance prediction.

Methods
In this systematic analysis, we used a candidate gene approach to identify mutations associated with resistance or consistent with susceptibility for 13 WHO-endorsed antituberculosis drugs. We collected existing worldwide MTBC whole-genome sequencing data and phenotypic data from academic groups and consortia, reference laboratories, public health organisations, and published literature. We categorised phenotypes as follows: methods and critical concentrations currently endorsed by WHO (category 1); critical concentrations previously endorsed by WHO for those methods (category 2); methods or critical concentrations not currently endorsed by WHO (category 3). For each mutation, we used a contingency table of binary phenotypes and presence or absence of the mutation to compute positive predictive value, and we used Fisher's exact tests to generate odds ratios and Benjamini-Hochberg corrected p values. Mutations were graded as associated with resistance if present in at least five isolates, if the odds ratio was more than 1 with a statistically significant corrected p value, and if the lower bound of the 95% CI on the positive predictive value for phenotypic resistance was greater than 25%. A series of expert rules were applied for final confidence grading of each mutation.

Findings
We analysed 41 137 MTBC isolates with phenotypic and whole-genome sequencing data from 45 countries. 38 215 MTBC isolates passed quality control steps and were included in the final analysis. 15 667 associations were computed for 13 211 unique mutations linked to one or more drugs. 1149 (7·3%) of 15 667 mutations were classified as associated with phenotypic resistance and 107 (0·7%) were deemed consistent with susceptibility. For rifampicin, isoniazid, ethambutol, fluoroquinolones, and streptomycin, the mutations' pooled sensitivity was more than 80%. Specificity was over 95% for all drugs except ethionamide (91·4%), moxifloxacin (91·6%) and ethambutol (93·3%). Only two resistance mutations were identified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic resistance was low for these drugs.

Interpretation
We present the first WHO-endorsed catalogue of molecular targets for MTBC drug susceptibility testing, which is intended to provide a global standard for resistance interpretation. The existence of this catalogue should encourage the implementation of molecular diagnostics by national tuberculosis programmes.

Original language	English
Pages (from-to)	e265-e273
Journal	The Lancet Microbe
Volume	3
Issue number	4
DOIs	https://doi.org/10.1016/S2666-5247(21)00301-3
Publication status	Published - 1 Apr 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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PIIS2666524721003013Final published version, 1.75 MBLicence: CC BY

Cite this

the CRyPTIC Consortium, the Seq&Treat Consortium, Walker, T. M., Miotto, P., Köser, C. U., Fowler, P. W., Knaggs, J., Iqbal, Z., Hunt, M., Chindelevitch, L., Farhat, M. R., Cirillo, D. M., Comas, I., Posey, J., Omar, S. V., Peto, T. E. A., Suresh, A., Uplekar, S., Laurent, S., ... Rodwell, T. C. (2022). The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis. The Lancet Microbe, 3(4), e265-e273. https://doi.org/10.1016/S2666-5247(21)00301-3

@article{9d90d1e1a875442b9a79c9a8e578c20a,

title = "The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis",

abstract = "Background Molecular diagnostics are considered the most promising route to achievement of rapid, universal drug susceptibility testing for Mycobacterium tuberculosis complex (MTBC). We aimed to generate a WHO-endorsed catalogue of mutations to serve as a global standard for interpreting molecular information for drug resistance prediction. Methods In this systematic analysis, we used a candidate gene approach to identify mutations associated with resistance or consistent with susceptibility for 13 WHO-endorsed antituberculosis drugs. We collected existing worldwide MTBC whole-genome sequencing data and phenotypic data from academic groups and consortia, reference laboratories, public health organisations, and published literature. We categorised phenotypes as follows: methods and critical concentrations currently endorsed by WHO (category 1); critical concentrations previously endorsed by WHO for those methods (category 2); methods or critical concentrations not currently endorsed by WHO (category 3). For each mutation, we used a contingency table of binary phenotypes and presence or absence of the mutation to compute positive predictive value, and we used Fisher's exact tests to generate odds ratios and Benjamini-Hochberg corrected p values. Mutations were graded as associated with resistance if present in at least five isolates, if the odds ratio was more than 1 with a statistically significant corrected p value, and if the lower bound of the 95\% CI on the positive predictive value for phenotypic resistance was greater than 25\%. A series of expert rules were applied for final confidence grading of each mutation. Findings We analysed 41 137 MTBC isolates with phenotypic and whole-genome sequencing data from 45 countries. 38 215 MTBC isolates passed quality control steps and were included in the final analysis. 15 667 associations were computed for 13 211 unique mutations linked to one or more drugs. 1149 (7·3\%) of 15 667 mutations were classified as associated with phenotypic resistance and 107 (0·7\%) were deemed consistent with susceptibility. For rifampicin, isoniazid, ethambutol, fluoroquinolones, and streptomycin, the mutations' pooled sensitivity was more than 80\%. Specificity was over 95\% for all drugs except ethionamide (91·4\%), moxifloxacin (91·6\%) and ethambutol (93·3\%). Only two resistance mutations were identified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic resistance was low for these drugs. Interpretation We present the first WHO-endorsed catalogue of molecular targets for MTBC drug susceptibility testing, which is intended to provide a global standard for resistance interpretation. The existence of this catalogue should encourage the implementation of molecular diagnostics by national tuberculosis programmes.",

author = "\{the CRyPTIC Consortium\} and \{the Seq\&Treat Consortium\} and Walker, \{Timothy M.\} and Paolo Miotto and K{\"o}ser, \{Claudio U.\} and Fowler, \{Philip W.\} and Jeff Knaggs and Zamin Iqbal and Martin Hunt and Leonid Chindelevitch and Farhat, \{Maha R.\} and Cirillo, \{Daniela Maria\} and I{\~n}aki Comas and James Posey and Omar, \{Shaheed V.\} and Peto, \{Timothy E.A.\} and Anita Suresh and Swapna Uplekar and Sacha Laurent and Colman, \{Rebecca E.\} and Nathanson, \{Carl Michael\} and Matteo Zignol and Walker, \{Ann Sarah\} and Crook, \{Derrick W.\} and Nazir Ismail and Rodwell, \{Timothy C.\} and Ivan Barilar and Simone Battaglia and Emanuele Borroni and Brandao, \{Angela P.\} and Alice Brankin and Cabibbe, \{Andrea Maurizio\} and Joshua Carter and Darren Chetty and Pauline Claxton and Clifton, \{David A.\} and Ted Cohen and Jorge Coronel and Viola Dreyer and Earle, \{Sarah G.\} and Vincent Escuyer and Lucilaine Ferrazoli and Gao, \{George Fu\} and Jennifer Gardy and Saheer Gharbia and Ghisi, \{Kelen T.\} and Arash Ghodousi and Cruz, \{Ana Lu{\'i}za Gibertoni\} and Clara Grazian and Ramona Groenheit and Guthrie, \{Jennifer L.\} and Maxine Caws",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0 license",

year = "2022",

month = apr,

day = "1",

doi = "10.1016/S2666-5247(21)00301-3",

language = "English",

volume = "3",

pages = "e265--e273",

journal = "The Lancet Microbe",

issn = "2666-5247",

publisher = "Elsevier Ltd",

number = "4",

}

the CRyPTIC Consortium, the Seq&Treat Consortium, Walker, TM, Miotto, P, Köser, CU, Fowler, PW, Knaggs, J, Iqbal, Z, Hunt, M, Chindelevitch, L, Farhat, MR, Cirillo, DM, Comas, I, Posey, J, Omar, SV, Peto, TEA, Suresh, A, Uplekar, S, Laurent, S, Colman, RE, Nathanson, CM, Zignol, M, Walker, AS, Crook, DW, Ismail, N & Rodwell, TC 2022, 'The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis', The Lancet Microbe, vol. 3, no. 4, pp. e265-e273. https://doi.org/10.1016/S2666-5247(21)00301-3

TY - JOUR

T1 - The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis

AU - the CRyPTIC Consortium

AU - the Seq&Treat Consortium

AU - Walker, Timothy M.

AU - Miotto, Paolo

AU - Köser, Claudio U.

AU - Fowler, Philip W.

AU - Knaggs, Jeff

AU - Iqbal, Zamin

AU - Hunt, Martin

AU - Chindelevitch, Leonid

AU - Farhat, Maha R.

AU - Cirillo, Daniela Maria

AU - Comas, Iñaki

AU - Posey, James

AU - Omar, Shaheed V.

AU - Peto, Timothy E.A.

AU - Suresh, Anita

AU - Uplekar, Swapna

AU - Laurent, Sacha

AU - Colman, Rebecca E.

AU - Nathanson, Carl Michael

AU - Zignol, Matteo

AU - Walker, Ann Sarah

AU - Crook, Derrick W.

AU - Ismail, Nazir

AU - Rodwell, Timothy C.

AU - Barilar, Ivan

AU - Battaglia, Simone

AU - Borroni, Emanuele

AU - Brandao, Angela P.

AU - Brankin, Alice

AU - Cabibbe, Andrea Maurizio

AU - Carter, Joshua

AU - Chetty, Darren

AU - Claxton, Pauline

AU - Clifton, David A.

AU - Cohen, Ted

AU - Coronel, Jorge

AU - Dreyer, Viola

AU - Earle, Sarah G.

AU - Escuyer, Vincent

AU - Ferrazoli, Lucilaine

AU - Gao, George Fu

AU - Gardy, Jennifer

AU - Gharbia, Saheer

AU - Ghisi, Kelen T.

AU - Ghodousi, Arash

AU - Cruz, Ana Luíza Gibertoni

AU - Grazian, Clara

AU - Groenheit, Ramona

AU - Guthrie, Jennifer L.

AU - Caws, Maxine

PY - 2022/4/1

Y1 - 2022/4/1

N2 - Background Molecular diagnostics are considered the most promising route to achievement of rapid, universal drug susceptibility testing for Mycobacterium tuberculosis complex (MTBC). We aimed to generate a WHO-endorsed catalogue of mutations to serve as a global standard for interpreting molecular information for drug resistance prediction. Methods In this systematic analysis, we used a candidate gene approach to identify mutations associated with resistance or consistent with susceptibility for 13 WHO-endorsed antituberculosis drugs. We collected existing worldwide MTBC whole-genome sequencing data and phenotypic data from academic groups and consortia, reference laboratories, public health organisations, and published literature. We categorised phenotypes as follows: methods and critical concentrations currently endorsed by WHO (category 1); critical concentrations previously endorsed by WHO for those methods (category 2); methods or critical concentrations not currently endorsed by WHO (category 3). For each mutation, we used a contingency table of binary phenotypes and presence or absence of the mutation to compute positive predictive value, and we used Fisher's exact tests to generate odds ratios and Benjamini-Hochberg corrected p values. Mutations were graded as associated with resistance if present in at least five isolates, if the odds ratio was more than 1 with a statistically significant corrected p value, and if the lower bound of the 95% CI on the positive predictive value for phenotypic resistance was greater than 25%. A series of expert rules were applied for final confidence grading of each mutation. Findings We analysed 41 137 MTBC isolates with phenotypic and whole-genome sequencing data from 45 countries. 38 215 MTBC isolates passed quality control steps and were included in the final analysis. 15 667 associations were computed for 13 211 unique mutations linked to one or more drugs. 1149 (7·3%) of 15 667 mutations were classified as associated with phenotypic resistance and 107 (0·7%) were deemed consistent with susceptibility. For rifampicin, isoniazid, ethambutol, fluoroquinolones, and streptomycin, the mutations' pooled sensitivity was more than 80%. Specificity was over 95% for all drugs except ethionamide (91·4%), moxifloxacin (91·6%) and ethambutol (93·3%). Only two resistance mutations were identified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic resistance was low for these drugs. Interpretation We present the first WHO-endorsed catalogue of molecular targets for MTBC drug susceptibility testing, which is intended to provide a global standard for resistance interpretation. The existence of this catalogue should encourage the implementation of molecular diagnostics by national tuberculosis programmes.

AB - Background Molecular diagnostics are considered the most promising route to achievement of rapid, universal drug susceptibility testing for Mycobacterium tuberculosis complex (MTBC). We aimed to generate a WHO-endorsed catalogue of mutations to serve as a global standard for interpreting molecular information for drug resistance prediction. Methods In this systematic analysis, we used a candidate gene approach to identify mutations associated with resistance or consistent with susceptibility for 13 WHO-endorsed antituberculosis drugs. We collected existing worldwide MTBC whole-genome sequencing data and phenotypic data from academic groups and consortia, reference laboratories, public health organisations, and published literature. We categorised phenotypes as follows: methods and critical concentrations currently endorsed by WHO (category 1); critical concentrations previously endorsed by WHO for those methods (category 2); methods or critical concentrations not currently endorsed by WHO (category 3). For each mutation, we used a contingency table of binary phenotypes and presence or absence of the mutation to compute positive predictive value, and we used Fisher's exact tests to generate odds ratios and Benjamini-Hochberg corrected p values. Mutations were graded as associated with resistance if present in at least five isolates, if the odds ratio was more than 1 with a statistically significant corrected p value, and if the lower bound of the 95% CI on the positive predictive value for phenotypic resistance was greater than 25%. A series of expert rules were applied for final confidence grading of each mutation. Findings We analysed 41 137 MTBC isolates with phenotypic and whole-genome sequencing data from 45 countries. 38 215 MTBC isolates passed quality control steps and were included in the final analysis. 15 667 associations were computed for 13 211 unique mutations linked to one or more drugs. 1149 (7·3%) of 15 667 mutations were classified as associated with phenotypic resistance and 107 (0·7%) were deemed consistent with susceptibility. For rifampicin, isoniazid, ethambutol, fluoroquinolones, and streptomycin, the mutations' pooled sensitivity was more than 80%. Specificity was over 95% for all drugs except ethionamide (91·4%), moxifloxacin (91·6%) and ethambutol (93·3%). Only two resistance mutations were identified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic resistance was low for these drugs. Interpretation We present the first WHO-endorsed catalogue of molecular targets for MTBC drug susceptibility testing, which is intended to provide a global standard for resistance interpretation. The existence of this catalogue should encourage the implementation of molecular diagnostics by national tuberculosis programmes.

U2 - 10.1016/S2666-5247(21)00301-3

DO - 10.1016/S2666-5247(21)00301-3

M3 - Article

AN - SCOPUS:85127127568

SN - 2666-5247

VL - 3

SP - e265-e273

JO - The Lancet Microbe

JF - The Lancet Microbe

IS - 4

ER -

The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis

Abstract

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