Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data

Erkison Ewomazino Odih; Jabir A. Abdulahi; Anne V. Amulele; Matthew Bates; Eva Heinz; Weiming Hu; Kajal Jain; Rindidzani Magobo; Courtney P. Olwagen; John M. Tembo; Tolbert Sonda; Jonathan Strysko; Caroline C. Tigoi; Kyle Bittinger; Jennifer Cornick; Ebenezer Foster-Nyarko; Wilson Gumbi; Steven M. Jones; Chileshe L. Musyani; Carolyn M. McGann; Ahmed M. Moustafa; Patrick Musicha; James C.L. Mwansa; Moreka L. Ndumba; Thomas D. Stanton; Donwilliams O. Omuoyo; Oliver Pearse; Laura T. Phillips; Paul J. Planet; Charlene M.C. Rodrigues; Fatou Secka; Kirsty Sands; Erin Theiller; Allan M. Zuza; Sulagna Basu; Grace J. Chan; Kenneth C. Iregbu; Jean Baptiste Mazarati; Semaria Solomon Alemayehu; Timothy R. Walsh; Rabaab Zahra; Angela Dramowski; Sombo Fwoloshi; Appiah Korang Labi; Lola Madrid; Noah Obeng-Nkrumah; David Ojok; Boaz D. Wadugu; Andrew C. Whitelaw; Anudita Bhargava; Atul Jindal; Ramesh K. Agarwal; Alexander M. Aiken; James A. Berkley; Susan E. Coffin; Nicholas A. Feasey; Nelesh P. Govender; Davidson H. Hamer; Shabir A. Madhi; M. Jeeva Sankar; Kelly L. Wyres; Kathryn E. Holt

doi:10.1371/journal.pmed.1005077

Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data

Erkison Ewomazino Odih
, Jabir A. Abdulahi
, Anne V. Amulele
, Matthew Bates
, Eva Heinz
, Weiming Hu
, Kajal Jain
, Rindidzani Magobo
, Courtney P. Olwagen
, John M. Tembo
, Tolbert Sonda
, Jonathan Strysko
, Caroline C. Tigoi
, Kyle Bittinger
, Jennifer Cornick
, Ebenezer Foster-Nyarko
, Wilson Gumbi
, Steven M. Jones
, Chileshe L. Musyani
, Carolyn M. McGann

Ahmed M. Moustafa, Patrick Musicha, James C.L. Mwansa, Moreka L. Ndumba, Thomas D. Stanton, Donwilliams O. Omuoyo, Oliver Pearse, Laura T. Phillips, Paul J. Planet, Charlene M.C. Rodrigues, Fatou Secka, Kirsty Sands, Erin Theiller, Allan M. Zuza, Sulagna Basu, Grace J. Chan, Kenneth C. Iregbu, Jean Baptiste Mazarati, Semaria Solomon Alemayehu, Timothy R. Walsh, Rabaab Zahra, Angela Dramowski, Sombo Fwoloshi, Appiah Korang Labi, Lola Madrid, Noah Obeng-Nkrumah, David Ojok, Boaz D. Wadugu, Andrew C. Whitelaw, Anudita Bhargava, Atul Jindal, Ramesh K. Agarwal, Alexander M. Aiken, James A. Berkley, Susan E. Coffin, Nicholas A. Feasey, Nelesh P. Govender, Davidson H. Hamer, Shabir A. Madhi, M. Jeeva Sankar, Kelly L. Wyres, Kathryn E. Holt

London School of Hygiene & Tropical Medicine
Wellcome Trust Research Laboratories Nairobi
University of Lincoln
University of Strathclyde
Wellcome Sanger Institute
Children's Hospital of Philadelphia
All India Institute of Medical Sciences, New Delhi
National Health Laboratory Services
Human Sciences Research Council of South Africa
University of the Witwatersrand
Kilimanjaro Clinical Research Institute
University of Botswana-University of Pennsylvania Partnership
University of Pennsylvania Perelman School of Medicine
University of Liverpool
Kamuzu University of Health Sciences
Zambia National Public Health Institute
Levy Mwanawasa Medical University
Liverpool School of Tropical Medicine
Lusaka Apex Medical University
Monash University
School of Medicine
Imperial College Healthcare NHS Trust
UK Health Security Agency
University of Oxford
Cardiff University
Indian Council of Medical Research
University of Abuja
National Hospital Abuja
Institut d’Enseignement Supérieur de Ruhengeri
INES Centre for Genomic Biology
St. Paul‘s Hospital Millennium Medical College
International Centre for Antimicrobial Resistance Solutions (ICARS)
Quaid-i-Azam University
Trinity College Dublin
Stellenbosch University
University Teaching Hospital Lusaka
Haramaya University
Centre for Infectious Disease Research in Zambia
Stellenbosch University & National Health Laboratory Service
All India Institute of Medical Sciences, Raipur
Nuffield Department of Medicine
Boston University
Boston University Chobanian & Avedisian School of Medicine

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

Abstract

Background Klebsiella pneumoniae is the leading cause of sepsis among neonates in low- and middle-income countries (LMICs) in Africa and Asia, contributing substantially to the overall burden of antimicrobial resistant (AMR) infections and mortality among neonates globally. Pathogen sequencing has been used to investigate case clusters and confirm nosocomial transmission in a small number of neonatal units. Here we utilise pathogen sequence data to estimate the fraction of K. pneumoniae neonatal sepsis attributable to nosocomial transmission in African and South Asian countries. Methods and findings We estimated the proportion of invasive K. pneumoniae disease involved in nosocomial transmission clusters in a given neonatal unit, using single-linkage clustering based on pairwise temporal and genetic distances estimated from bacterial whole-genome sequences aggregated from 10 contributing studies. Analysing 1,523 K. pneumoniae isolates from 27 units in 13 countries in Africa and South Asia between 2013 and 2023, we inferred 156 nosocomial transmission clusters, ranging from 2 to 188 neonates each (83 of the clusters comprised ≥3 cases). Overall, we estimated that 1,035 neonatal infections (68.0%) were part of nosocomial transmission clusters. Excluding the first infection in each cluster as a potential index case, we estimate at least 879 (57.7%) infections were acquired via nosocomial transmission. Sensitivity analyses showed that results were robust to the choice of genetic distance estimation methods and thresholds used to define clusters, and cluster estimates were stable over temporal distance thresholds ranging from 2 to 8 weeks. Isolates were mostly extended-spectrum beta-lactamase (ESBL) producers (90.9%) and included 172 multi-locus sequence types (STs). Fourteen STs, including several globally recognised multidrug-resistant lineages, were associated with transmission clusters at multiple units, and these were collectively responsible for two-thirds of all infections. Carriage of carbapenemase genes (adjusted odds ratio, aOR = 2.08 [95% confidence interval, CI: 1.04, 4.14]; p=0.04) and ESBL genes (aOR = 2.48 [95% CI: 1.26, 4.90]; p=0.006) were significantly positively associated with transmission in a logistic regression model with site as a covariate. Limitations of this study include the lack of sufficient clinical data to allow high-resolution investigation of transmission dynamics and lack of facility-level data to investigate contributors to the observed differences in transmission burden across sites. Conclusions Nosocomial transmission contributes to a substantial proportion of K. pneumoniae sepsis in neonatal care units in Africa and South Asia. Reducing transmission within these settings through improved infection prevention and control and other measures could substantially reduce the neonatal sepsis burden. A high burden of transmission clusters is associated with the same drug-resistant lineages that are recognised as high-risk clones associated with hospital outbreaks in high-income countries, indicating global connectivity of the AMR pathogen population.

Original language	English
Article number	e1005077
Journal	PLoS Medicine
Volume	23
Issue number	5 May
DOIs	https://doi.org/10.1371/journal.pmed.1005077
Publication status	Published - May 2026

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10.1371/journal.pmed.1005077

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Odih, E. E., Abdulahi, J. A., Amulele, A. V., Bates, M., Heinz, E., Hu, W., Jain, K., Magobo, R., Olwagen, C. P., Tembo, J. M., Sonda, T., Strysko, J., Tigoi, C. C., Bittinger, K., Cornick, J., Foster-Nyarko, E., Gumbi, W., Jones, S. M., Musyani, C. L., ... Holt, K. E. (2026). Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data. PLoS Medicine, 23(5 May), Article e1005077. https://doi.org/10.1371/journal.pmed.1005077

@article{605d968c27b04dafbf76397dd0cbf336,

title = "Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data",

abstract = "Background Klebsiella pneumoniae is the leading cause of sepsis among neonates in low- and middle-income countries (LMICs) in Africa and Asia, contributing substantially to the overall burden of antimicrobial resistant (AMR) infections and mortality among neonates globally. Pathogen sequencing has been used to investigate case clusters and confirm nosocomial transmission in a small number of neonatal units. Here we utilise pathogen sequence data to estimate the fraction of K. pneumoniae neonatal sepsis attributable to nosocomial transmission in African and South Asian countries. Methods and findings We estimated the proportion of invasive K. pneumoniae disease involved in nosocomial transmission clusters in a given neonatal unit, using single-linkage clustering based on pairwise temporal and genetic distances estimated from bacterial whole-genome sequences aggregated from 10 contributing studies. Analysing 1,523 K. pneumoniae isolates from 27 units in 13 countries in Africa and South Asia between 2013 and 2023, we inferred 156 nosocomial transmission clusters, ranging from 2 to 188 neonates each (83 of the clusters comprised ≥3 cases). Overall, we estimated that 1,035 neonatal infections (68.0\%) were part of nosocomial transmission clusters. Excluding the first infection in each cluster as a potential index case, we estimate at least 879 (57.7\%) infections were acquired via nosocomial transmission. Sensitivity analyses showed that results were robust to the choice of genetic distance estimation methods and thresholds used to define clusters, and cluster estimates were stable over temporal distance thresholds ranging from 2 to 8 weeks. Isolates were mostly extended-spectrum beta-lactamase (ESBL) producers (90.9\%) and included 172 multi-locus sequence types (STs). Fourteen STs, including several globally recognised multidrug-resistant lineages, were associated with transmission clusters at multiple units, and these were collectively responsible for two-thirds of all infections. Carriage of carbapenemase genes (adjusted odds ratio, aOR = 2.08 [95\% confidence interval, CI: 1.04, 4.14]; p=0.04) and ESBL genes (aOR = 2.48 [95\% CI: 1.26, 4.90]; p=0.006) were significantly positively associated with transmission in a logistic regression model with site as a covariate. Limitations of this study include the lack of sufficient clinical data to allow high-resolution investigation of transmission dynamics and lack of facility-level data to investigate contributors to the observed differences in transmission burden across sites. Conclusions Nosocomial transmission contributes to a substantial proportion of K. pneumoniae sepsis in neonatal care units in Africa and South Asia. Reducing transmission within these settings through improved infection prevention and control and other measures could substantially reduce the neonatal sepsis burden. A high burden of transmission clusters is associated with the same drug-resistant lineages that are recognised as high-risk clones associated with hospital outbreaks in high-income countries, indicating global connectivity of the AMR pathogen population.",

author = "Odih, \{Erkison Ewomazino\} and Abdulahi, \{Jabir A.\} and Amulele, \{Anne V.\} and Matthew Bates and Eva Heinz and Weiming Hu and Kajal Jain and Rindidzani Magobo and Olwagen, \{Courtney P.\} and Tembo, \{John M.\} and Tolbert Sonda and Jonathan Strysko and Tigoi, \{Caroline C.\} and Kyle Bittinger and Jennifer Cornick and Ebenezer Foster-Nyarko and Wilson Gumbi and Jones, \{Steven M.\} and Musyani, \{Chileshe L.\} and McGann, \{Carolyn M.\} and Moustafa, \{Ahmed M.\} and Patrick Musicha and Mwansa, \{James C.L.\} and Ndumba, \{Moreka L.\} and Stanton, \{Thomas D.\} and Omuoyo, \{Donwilliams O.\} and Oliver Pearse and Phillips, \{Laura T.\} and Planet, \{Paul J.\} and Rodrigues, \{Charlene M.C.\} and Fatou Secka and Kirsty Sands and Erin Theiller and Zuza, \{Allan M.\} and Sulagna Basu and Chan, \{Grace J.\} and Iregbu, \{Kenneth C.\} and Mazarati, \{Jean Baptiste\} and Alemayehu, \{Semaria Solomon\} and Walsh, \{Timothy R.\} and Rabaab Zahra and Angela Dramowski and Sombo Fwoloshi and Labi, \{Appiah Korang\} and Lola Madrid and Noah Obeng-Nkrumah and David Ojok and Wadugu, \{Boaz D.\} and Whitelaw, \{Andrew C.\} and Anudita Bhargava and Atul Jindal and Agarwal, \{Ramesh K.\} and Aiken, \{Alexander M.\} and Berkley, \{James A.\} and Coffin, \{Susan E.\} and Feasey, \{Nicholas A.\} and Govender, \{Nelesh P.\} and Hamer, \{Davidson H.\} and Madhi, \{Shabir A.\} and Sankar, \{M. Jeeva\} and Wyres, \{Kelly L.\} and Holt, \{Kathryn E.\}",

note = "Publisher Copyright: {\textcopyright} 2026 Odih et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

year = "2026",

month = may,

doi = "10.1371/journal.pmed.1005077",

language = "English",

volume = "23",

journal = "PLoS Medicine",

issn = "1549-1277",

publisher = "Public Library of Science",

number = "5 May",

}

Odih, EE, Abdulahi, JA, Amulele, AV, Bates, M, Heinz, E, Hu, W, Jain, K, Magobo, R, Olwagen, CP, Tembo, JM, Sonda, T, Strysko, J, Tigoi, CC, Bittinger, K, Cornick, J, Foster-Nyarko, E, Gumbi, W, Jones, SM, Musyani, CL, McGann, CM, Moustafa, AM, Musicha, P, Mwansa, JCL, Ndumba, ML, Stanton, TD, Omuoyo, DO, Pearse, O, Phillips, LT, Planet, PJ, Rodrigues, CMC, Secka, F, Sands, K, Theiller, E, Zuza, AM, Basu, S, Chan, GJ, Iregbu, KC, Mazarati, JB, Alemayehu, SS, Walsh, TR, Zahra, R, Dramowski, A, Fwoloshi, S, Labi, AK, Madrid, L, Obeng-Nkrumah, N, Ojok, D, Wadugu, BD, Whitelaw, AC, Bhargava, A, Jindal, A, Agarwal, RK, Aiken, AM, Berkley, JA, Coffin, SE, Feasey, NA, Govender, NP, Hamer, DH, Madhi, SA, Sankar, MJ, Wyres, KL & Holt, KE 2026, 'Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data', PLoS Medicine, vol. 23, no. 5 May, e1005077. https://doi.org/10.1371/journal.pmed.1005077

Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data. / Odih, Erkison Ewomazino; Abdulahi, Jabir A.; Amulele, Anne V. et al.
In: PLoS Medicine, Vol. 23, No. 5 May, e1005077, 05.2026.

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

TY - JOUR

T1 - Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia

T2 - An observational study of infection clusters inferred from pathogen genomics and temporal data

AU - Odih, Erkison Ewomazino

AU - Abdulahi, Jabir A.

AU - Amulele, Anne V.

AU - Bates, Matthew

AU - Heinz, Eva

AU - Hu, Weiming

AU - Jain, Kajal

AU - Magobo, Rindidzani

AU - Olwagen, Courtney P.

AU - Tembo, John M.

AU - Sonda, Tolbert

AU - Strysko, Jonathan

AU - Tigoi, Caroline C.

AU - Bittinger, Kyle

AU - Cornick, Jennifer

AU - Foster-Nyarko, Ebenezer

AU - Gumbi, Wilson

AU - Jones, Steven M.

AU - Musyani, Chileshe L.

AU - McGann, Carolyn M.

AU - Moustafa, Ahmed M.

AU - Musicha, Patrick

AU - Mwansa, James C.L.

AU - Ndumba, Moreka L.

AU - Stanton, Thomas D.

AU - Omuoyo, Donwilliams O.

AU - Pearse, Oliver

AU - Phillips, Laura T.

AU - Planet, Paul J.

AU - Rodrigues, Charlene M.C.

AU - Secka, Fatou

AU - Sands, Kirsty

AU - Theiller, Erin

AU - Zuza, Allan M.

AU - Basu, Sulagna

AU - Chan, Grace J.

AU - Iregbu, Kenneth C.

AU - Mazarati, Jean Baptiste

AU - Alemayehu, Semaria Solomon

AU - Walsh, Timothy R.

AU - Zahra, Rabaab

AU - Dramowski, Angela

AU - Fwoloshi, Sombo

AU - Labi, Appiah Korang

AU - Madrid, Lola

AU - Obeng-Nkrumah, Noah

AU - Ojok, David

AU - Wadugu, Boaz D.

AU - Whitelaw, Andrew C.

AU - Bhargava, Anudita

AU - Jindal, Atul

AU - Agarwal, Ramesh K.

AU - Aiken, Alexander M.

AU - Berkley, James A.

AU - Coffin, Susan E.

AU - Feasey, Nicholas A.

AU - Govender, Nelesh P.

AU - Hamer, Davidson H.

AU - Madhi, Shabir A.

AU - Sankar, M. Jeeva

AU - Wyres, Kelly L.

AU - Holt, Kathryn E.

N1 - Publisher Copyright: © 2026 Odih et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2026/5

Y1 - 2026/5

N2 - Background Klebsiella pneumoniae is the leading cause of sepsis among neonates in low- and middle-income countries (LMICs) in Africa and Asia, contributing substantially to the overall burden of antimicrobial resistant (AMR) infections and mortality among neonates globally. Pathogen sequencing has been used to investigate case clusters and confirm nosocomial transmission in a small number of neonatal units. Here we utilise pathogen sequence data to estimate the fraction of K. pneumoniae neonatal sepsis attributable to nosocomial transmission in African and South Asian countries. Methods and findings We estimated the proportion of invasive K. pneumoniae disease involved in nosocomial transmission clusters in a given neonatal unit, using single-linkage clustering based on pairwise temporal and genetic distances estimated from bacterial whole-genome sequences aggregated from 10 contributing studies. Analysing 1,523 K. pneumoniae isolates from 27 units in 13 countries in Africa and South Asia between 2013 and 2023, we inferred 156 nosocomial transmission clusters, ranging from 2 to 188 neonates each (83 of the clusters comprised ≥3 cases). Overall, we estimated that 1,035 neonatal infections (68.0%) were part of nosocomial transmission clusters. Excluding the first infection in each cluster as a potential index case, we estimate at least 879 (57.7%) infections were acquired via nosocomial transmission. Sensitivity analyses showed that results were robust to the choice of genetic distance estimation methods and thresholds used to define clusters, and cluster estimates were stable over temporal distance thresholds ranging from 2 to 8 weeks. Isolates were mostly extended-spectrum beta-lactamase (ESBL) producers (90.9%) and included 172 multi-locus sequence types (STs). Fourteen STs, including several globally recognised multidrug-resistant lineages, were associated with transmission clusters at multiple units, and these were collectively responsible for two-thirds of all infections. Carriage of carbapenemase genes (adjusted odds ratio, aOR = 2.08 [95% confidence interval, CI: 1.04, 4.14]; p=0.04) and ESBL genes (aOR = 2.48 [95% CI: 1.26, 4.90]; p=0.006) were significantly positively associated with transmission in a logistic regression model with site as a covariate. Limitations of this study include the lack of sufficient clinical data to allow high-resolution investigation of transmission dynamics and lack of facility-level data to investigate contributors to the observed differences in transmission burden across sites. Conclusions Nosocomial transmission contributes to a substantial proportion of K. pneumoniae sepsis in neonatal care units in Africa and South Asia. Reducing transmission within these settings through improved infection prevention and control and other measures could substantially reduce the neonatal sepsis burden. A high burden of transmission clusters is associated with the same drug-resistant lineages that are recognised as high-risk clones associated with hospital outbreaks in high-income countries, indicating global connectivity of the AMR pathogen population.

AB - Background Klebsiella pneumoniae is the leading cause of sepsis among neonates in low- and middle-income countries (LMICs) in Africa and Asia, contributing substantially to the overall burden of antimicrobial resistant (AMR) infections and mortality among neonates globally. Pathogen sequencing has been used to investigate case clusters and confirm nosocomial transmission in a small number of neonatal units. Here we utilise pathogen sequence data to estimate the fraction of K. pneumoniae neonatal sepsis attributable to nosocomial transmission in African and South Asian countries. Methods and findings We estimated the proportion of invasive K. pneumoniae disease involved in nosocomial transmission clusters in a given neonatal unit, using single-linkage clustering based on pairwise temporal and genetic distances estimated from bacterial whole-genome sequences aggregated from 10 contributing studies. Analysing 1,523 K. pneumoniae isolates from 27 units in 13 countries in Africa and South Asia between 2013 and 2023, we inferred 156 nosocomial transmission clusters, ranging from 2 to 188 neonates each (83 of the clusters comprised ≥3 cases). Overall, we estimated that 1,035 neonatal infections (68.0%) were part of nosocomial transmission clusters. Excluding the first infection in each cluster as a potential index case, we estimate at least 879 (57.7%) infections were acquired via nosocomial transmission. Sensitivity analyses showed that results were robust to the choice of genetic distance estimation methods and thresholds used to define clusters, and cluster estimates were stable over temporal distance thresholds ranging from 2 to 8 weeks. Isolates were mostly extended-spectrum beta-lactamase (ESBL) producers (90.9%) and included 172 multi-locus sequence types (STs). Fourteen STs, including several globally recognised multidrug-resistant lineages, were associated with transmission clusters at multiple units, and these were collectively responsible for two-thirds of all infections. Carriage of carbapenemase genes (adjusted odds ratio, aOR = 2.08 [95% confidence interval, CI: 1.04, 4.14]; p=0.04) and ESBL genes (aOR = 2.48 [95% CI: 1.26, 4.90]; p=0.006) were significantly positively associated with transmission in a logistic regression model with site as a covariate. Limitations of this study include the lack of sufficient clinical data to allow high-resolution investigation of transmission dynamics and lack of facility-level data to investigate contributors to the observed differences in transmission burden across sites. Conclusions Nosocomial transmission contributes to a substantial proportion of K. pneumoniae sepsis in neonatal care units in Africa and South Asia. Reducing transmission within these settings through improved infection prevention and control and other measures could substantially reduce the neonatal sepsis burden. A high burden of transmission clusters is associated with the same drug-resistant lineages that are recognised as high-risk clones associated with hospital outbreaks in high-income countries, indicating global connectivity of the AMR pathogen population.

UR - https://www.scopus.com/pages/publications/105038781733

U2 - 10.1371/journal.pmed.1005077

DO - 10.1371/journal.pmed.1005077

M3 - Article

AN - SCOPUS:105038781733

SN - 1549-1277

VL - 23

JO - PLoS Medicine

JF - PLoS Medicine

IS - 5 May

M1 - e1005077

ER -

Contribution of nosocomial transmission to Klebsiella pneumoniae neonatal sepsis in Africa and South Asia: An observational study of infection clusters inferred from pathogen genomics and temporal data

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