Manipulating the infant respiratory microbiomes to improve clinical outcomes: A review of the literature
Manipulating the infant respiratory microbiomes to improve clinical outcomes: A review of the literature
BACKGROUND: The association between infant respiratory microbiota and disease (including respiratory tract infections and asthma) is increasingly recognised, although the mechanism remains unclear. Respiratory infections and asthma account for a large proportion of infant morbidity and mortality, so the possibility of preventing disease or modifying clinical outcomes by manipulating microbiome development warrants investigation.
OBJECTIVES AND METHODS: We identified studies that investigated the efficacy of live bacteria (probiotics or human challenge) or their substrates to modify respiratory colonisation or clinical outcomes in infants.
ELIGIBILITY CRITERIA: Interventional studies involving infants under one year of age, administration of live bacteria or their substrates, and outcome measures including bacterial colonisation, microbiome profile, or respiratory disease phenotypes.
RESULTS AND LIMITATIONS: Some bacterial interventions can reduce infant respiratory infections, although none have been shown to reduce asthma incidence. The literature is heterogeneous in design and quality, precluding meaningful meta-analysis.
CONCLUSIONS: Upper respiratory tract infant microbiome manipulation may alter outcomes in respiratory tract infection, but further well-conducted research is needed to confirm this. Improved regulation of proprietary bacterial products is essential for further progress.
Asthma/epidemiology, Bacteria, Humans, Infant, Microbiota, Probiotics, Respiratory Tract Infections/epidemiology
247-252
Theodosiou, Anastasia A.
c6e63581-c22d-4a2c-9d14-2e66594eb053
Dorey, Robert B
8d4b042f-1659-4e76-99c2-23cde78ca4f5
Laver, Jay R.
b2996398-2ccf-40f0-92b8-f338f3de796b
Cleary, David W.
f4079c6d-d54b-4108-b346-b0069035bec0
Read, Robert C.
b5caca7b-0063-438a-b703-7ecbb6fc2b51
Jones, Christine E.
48229079-8b58-4dcb-8374-d9481fe7b426
12 May 2021
Theodosiou, Anastasia A.
c6e63581-c22d-4a2c-9d14-2e66594eb053
Dorey, Robert B
8d4b042f-1659-4e76-99c2-23cde78ca4f5
Laver, Jay R.
b2996398-2ccf-40f0-92b8-f338f3de796b
Cleary, David W.
f4079c6d-d54b-4108-b346-b0069035bec0
Read, Robert C.
b5caca7b-0063-438a-b703-7ecbb6fc2b51
Jones, Christine E.
48229079-8b58-4dcb-8374-d9481fe7b426
Theodosiou, Anastasia A., Dorey, Robert B, Laver, Jay R., Cleary, David W., Read, Robert C. and Jones, Christine E.
(2021)
Manipulating the infant respiratory microbiomes to improve clinical outcomes: A review of the literature.
Journal of Infection, 82 (6), .
(doi:10.1016/j.jinf.2021.03.012).
Abstract
BACKGROUND: The association between infant respiratory microbiota and disease (including respiratory tract infections and asthma) is increasingly recognised, although the mechanism remains unclear. Respiratory infections and asthma account for a large proportion of infant morbidity and mortality, so the possibility of preventing disease or modifying clinical outcomes by manipulating microbiome development warrants investigation.
OBJECTIVES AND METHODS: We identified studies that investigated the efficacy of live bacteria (probiotics or human challenge) or their substrates to modify respiratory colonisation or clinical outcomes in infants.
ELIGIBILITY CRITERIA: Interventional studies involving infants under one year of age, administration of live bacteria or their substrates, and outcome measures including bacterial colonisation, microbiome profile, or respiratory disease phenotypes.
RESULTS AND LIMITATIONS: Some bacterial interventions can reduce infant respiratory infections, although none have been shown to reduce asthma incidence. The literature is heterogeneous in design and quality, precluding meaningful meta-analysis.
CONCLUSIONS: Upper respiratory tract infant microbiome manipulation may alter outcomes in respiratory tract infection, but further well-conducted research is needed to confirm this. Improved regulation of proprietary bacterial products is essential for further progress.
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e-pub ahead of print date: 19 March 2021
Published date: 12 May 2021
Additional Information:
Copyright © 2021 The British Infection Association. Published by Elsevier Ltd. All rights reserved.
Keywords:
Asthma/epidemiology, Bacteria, Humans, Infant, Microbiota, Probiotics, Respiratory Tract Infections/epidemiology
Identifiers
Local EPrints ID: 470577
URI: http://eprints.soton.ac.uk/id/eprint/470577
ISSN: 0163-4453
PURE UUID: acb0279b-8476-4b65-a460-e0d056e9b356
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Date deposited: 13 Oct 2022 16:38
Last modified: 17 Mar 2024 03:45
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Author:
Anastasia A. Theodosiou
Author:
Robert B Dorey
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