Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.

Kate S. Baker; Elita Jauneikaite; Jamie G. Nunn; Janet T. Midega; Rifat Atun; Kathryn E. Holt; Kamini Walia; Benjamin P. Howden; Heather Tate; Iruka N. Okeke; Alessandra Carattoli; Li Yang Hsu; Katie L. Hopkins; Dishon M. Muloi; Nicole E. Wheeler; David M. Aanensen; Lewis C.E. Mason; Jonah Rodgus; Rene S. Hendriksen; Sabiha Y. Essack; Beverly Egyir; Alison L. Halpin; Duncan R. MacCannell; Josefina Campos; Padmini Srikantiah; Nick Feasey; Sharon J. Peacock

doi:10.1016/s2666-5247(23)00281-1

Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.

Kate S. Baker
, Elita Jauneikaite
, Jamie G. Nunn
, Janet T. Midega
, Rifat Atun
, Kathryn E. Holt
, Kamini Walia
, Benjamin P. Howden
, Heather Tate
, Iruka N. Okeke
, Alessandra Carattoli
, Li Yang Hsu
, Katie L. Hopkins
, Dishon M. Muloi
, Nicole E. Wheeler
, David M. Aanensen
, Lewis C.E. Mason
, Jonah Rodgus
, Rene S. Hendriksen
, Sabiha Y. Essack

Beverly Egyir, Alison L. Halpin, Duncan R. MacCannell, Josefina Campos, Padmini Srikantiah, Nick Feasey, Sharon J. Peacock

Clinical Sciences

University of Liverpool
University of Cambridge
Imperial College London
Imperial College Healthcare NHS Trust
Wellcome Trust
Harvard University
London School of Hygiene and Tropical Medicine
Monash University
Indian Council of Medical Research
University of Melbourne
United States Food and Drug Administration
University of Ibadan
University of Rome La Sapienza
National University of Singapore
UK Health Security Agency
International Livestock Research Institute
University of Birmingham
University of Oxford
Technical University of Denmark
University of KwaZulu-Natal
University of Ghana
Centers for Disease Control and Prevention
Administración Nacional de Laboratorios e Institutos de Salud "Dr. Carlos G. Malbrán"
Gates Foundation
Malawi-Liverpool-Wellcome Trust Clinical Research Programme

Research output: Contribution to journal › Review article › peer-review

24 Citations (Scopus)

Abstract

Nearly a century after the beginning of the antibiotic era, which has been associated with unparalleled improvements in human health and reductions in mortality associated with infection, the dwindling pipeline for new antibiotic classes coupled with the inevitable spread of antimicrobial resistance (AMR) poses a major global challenge. Historically, surveillance of bacteria with AMR typically relied on phenotypic analysis of isolates taken from infected individuals, which provides only a low-resolution view of the epidemiology behind an individual infection or wider outbreak. Recent years have seen increasing adoption of powerful new genomic technologies with the potential to revolutionise AMR surveillance by providing a high-resolution picture of the AMR profile of the bacteria causing infections and providing real-time actionable information for treating and preventing infection. However, many barriers remain to be overcome before genomic technologies can be adopted as a standard part of routine AMR surveillance around the world. Accordingly, the Surveillance and Epidemiology of Drug-resistant Infections Consortium convened an expert working group to assess the benefits and challenges of using genomics for AMR surveillance. In this Series, we detail these discussions and provide recommendations from the working group that can help to realise the massive potential benefits for genomics in surveillance of AMR.

Original language	English
Pages (from-to)	e1035-e1039
Journal	The Lancet Microbe
Volume	4
Issue number	12
DOIs	https://doi.org/10.1016/s2666-5247(23)00281-1
Publication status	Published - 14 Nov 2023

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

SDG 3 Good Health and Well-being

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Baker, K. S., Jauneikaite, E., Nunn, J. G., Midega, J. T., Atun, R., Holt, K. E., Walia, K., Howden, B. P., Tate, H., Okeke, I. N., Carattoli, A., Hsu, L. Y., Hopkins, K. L., Muloi, D. M., Wheeler, N. E., Aanensen, D. M., Mason, L. C. E., Rodgus, J., Hendriksen, R. S., ... Peacock, S. J. (2023). Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group. The Lancet Microbe, 4(12), e1035-e1039. https://doi.org/10.1016/s2666-5247(23)00281-1

@article{6ee86867816a4b9cbf1fa3539a809d20,

title = "Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.",

abstract = "Nearly a century after the beginning of the antibiotic era, which has been associated with unparalleled improvements in human health and reductions in mortality associated with infection, the dwindling pipeline for new antibiotic classes coupled with the inevitable spread of antimicrobial resistance (AMR) poses a major global challenge. Historically, surveillance of bacteria with AMR typically relied on phenotypic analysis of isolates taken from infected individuals, which provides only a low-resolution view of the epidemiology behind an individual infection or wider outbreak. Recent years have seen increasing adoption of powerful new genomic technologies with the potential to revolutionise AMR surveillance by providing a high-resolution picture of the AMR profile of the bacteria causing infections and providing real-time actionable information for treating and preventing infection. However, many barriers remain to be overcome before genomic technologies can be adopted as a standard part of routine AMR surveillance around the world. Accordingly, the Surveillance and Epidemiology of Drug-resistant Infections Consortium convened an expert working group to assess the benefits and challenges of using genomics for AMR surveillance. In this Series, we detail these discussions and provide recommendations from the working group that can help to realise the massive potential benefits for genomics in surveillance of AMR.",

author = "Baker, \{Kate S.\} and Elita Jauneikaite and Nunn, \{Jamie G.\} and Midega, \{Janet T.\} and Rifat Atun and Holt, \{Kathryn E.\} and Kamini Walia and Howden, \{Benjamin P.\} and Heather Tate and Okeke, \{Iruka N.\} and Alessandra Carattoli and Hsu, \{Li Yang\} and Hopkins, \{Katie L.\} and Muloi, \{Dishon M.\} and Wheeler, \{Nicole E.\} and Aanensen, \{David M.\} and Mason, \{Lewis C.E.\} and Jonah Rodgus and Hendriksen, \{Rene S.\} and Essack, \{Sabiha Y.\} and Beverly Egyir and Halpin, \{Alison L.\} and MacCannell, \{Duncan R.\} and Josefina Campos and Padmini Srikantiah and Nick Feasey and Peacock, \{Sharon J.\}",

year = "2023",

month = nov,

day = "14",

doi = "10.1016/s2666-5247(23)00281-1",

language = "English",

volume = "4",

pages = "e1035--e1039",

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Baker, KS, Jauneikaite, E, Nunn, JG, Midega, JT, Atun, R, Holt, KE, Walia, K, Howden, BP, Tate, H, Okeke, IN, Carattoli, A, Hsu, LY, Hopkins, KL, Muloi, DM, Wheeler, NE, Aanensen, DM, Mason, LCE, Rodgus, J, Hendriksen, RS, Essack, SY, Egyir, B, Halpin, AL, MacCannell, DR, Campos, J, Srikantiah, P, Feasey, N & Peacock, SJ 2023, 'Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.', The Lancet Microbe, vol. 4, no. 12, pp. e1035-e1039. https://doi.org/10.1016/s2666-5247(23)00281-1

TY - JOUR

T1 - Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.

AU - Baker, Kate S.

AU - Jauneikaite, Elita

AU - Nunn, Jamie G.

AU - Midega, Janet T.

AU - Atun, Rifat

AU - Holt, Kathryn E.

AU - Walia, Kamini

AU - Howden, Benjamin P.

AU - Tate, Heather

AU - Okeke, Iruka N.

AU - Carattoli, Alessandra

AU - Hsu, Li Yang

AU - Hopkins, Katie L.

AU - Muloi, Dishon M.

AU - Wheeler, Nicole E.

AU - Aanensen, David M.

AU - Mason, Lewis C.E.

AU - Rodgus, Jonah

AU - Hendriksen, Rene S.

AU - Essack, Sabiha Y.

AU - Egyir, Beverly

AU - Halpin, Alison L.

AU - MacCannell, Duncan R.

AU - Campos, Josefina

AU - Srikantiah, Padmini

AU - Feasey, Nick

AU - Peacock, Sharon J.

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N2 - Nearly a century after the beginning of the antibiotic era, which has been associated with unparalleled improvements in human health and reductions in mortality associated with infection, the dwindling pipeline for new antibiotic classes coupled with the inevitable spread of antimicrobial resistance (AMR) poses a major global challenge. Historically, surveillance of bacteria with AMR typically relied on phenotypic analysis of isolates taken from infected individuals, which provides only a low-resolution view of the epidemiology behind an individual infection or wider outbreak. Recent years have seen increasing adoption of powerful new genomic technologies with the potential to revolutionise AMR surveillance by providing a high-resolution picture of the AMR profile of the bacteria causing infections and providing real-time actionable information for treating and preventing infection. However, many barriers remain to be overcome before genomic technologies can be adopted as a standard part of routine AMR surveillance around the world. Accordingly, the Surveillance and Epidemiology of Drug-resistant Infections Consortium convened an expert working group to assess the benefits and challenges of using genomics for AMR surveillance. In this Series, we detail these discussions and provide recommendations from the working group that can help to realise the massive potential benefits for genomics in surveillance of AMR.

AB - Nearly a century after the beginning of the antibiotic era, which has been associated with unparalleled improvements in human health and reductions in mortality associated with infection, the dwindling pipeline for new antibiotic classes coupled with the inevitable spread of antimicrobial resistance (AMR) poses a major global challenge. Historically, surveillance of bacteria with AMR typically relied on phenotypic analysis of isolates taken from infected individuals, which provides only a low-resolution view of the epidemiology behind an individual infection or wider outbreak. Recent years have seen increasing adoption of powerful new genomic technologies with the potential to revolutionise AMR surveillance by providing a high-resolution picture of the AMR profile of the bacteria causing infections and providing real-time actionable information for treating and preventing infection. However, many barriers remain to be overcome before genomic technologies can be adopted as a standard part of routine AMR surveillance around the world. Accordingly, the Surveillance and Epidemiology of Drug-resistant Infections Consortium convened an expert working group to assess the benefits and challenges of using genomics for AMR surveillance. In this Series, we detail these discussions and provide recommendations from the working group that can help to realise the massive potential benefits for genomics in surveillance of AMR.

U2 - 10.1016/s2666-5247(23)00281-1

DO - 10.1016/s2666-5247(23)00281-1

M3 - Review article

SN - 2666-5247

VL - 4

SP - e1035-e1039

JO - The Lancet Microbe

JF - The Lancet Microbe

IS - 12

ER -

Evidence review and recommendations for the implementation of genomics for antimicrobial resistance surveillance: reports from an international expert group.

Abstract

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