Antibiotic-perturbed microbiota and the role of probiotics
Antibiotic-perturbed microbiota and the role of probiotics
The disruptive effect of antibiotics on the composition and function of the human microbiota is well established. However, the hypothesis that probiotics can help restore the antibiotic-disrupted microbiota has been advanced, with little consideration of the strength of evidence supporting it. Some clinical data suggest that probiotics can reduce antibiotic-related side effects, including Clostridioides difficile-associated diarrhoea, but there are no data that causally link these clinical effects to microbiota protection or recovery. Substantial challenges hinder attempts to address this hypothesis, including the absence of consensus on the composition of a ‘normal’ microbiota, non-standardized and evolving microbiome measurement methods, and substantial inter-individual microbiota variation. In this Review, we explore these complexities. First, we review the known benefits and risks of antibiotics, the effect of antibiotics on the human microbiota, the resilience and adaptability of the microbiota, and how microbiota restoration might be defined and measured. Subsequently, we explore the evidence for the efficacy of probiotics in preventing disruption or aiding microbiota recovery post-antibiotic treatment. Finally, we offer insights into the current state of research and suggest directions for future research.
155–172
Szajewska, Hania
84cfc816-e146-4417-930d-df9ec827f52b
Scott, Karen P.
4beb1ea3-23e0-4e02-baf3-619516aedce7
de Meij, Tim
278d4a75-310b-4dc4-9221-f7b60881cdcf
Forslund-Startceva, Sofia K.
24222277-6164-48d6-be47-2542c031195a
Knight, Rob
b7f1c8b1-5d71-4b9b-8821-9a18563dde58
Koren, Omry
970e15db-24d3-430d-a61f-fc98794d5e32
Little, Paul
1bf2d1f7-200c-47a5-ab16-fe5a8756a777
Johnston, Bradley C.
aea8a5bc-7dfb-465d-9822-78eca821fb38
Łukasik, Jan
8fb259a2-7190-498b-a7f7-33a2be9d5a89
Suez, Jotham
2dd40dff-1c05-47cc-81d3-0df3072935ca
Tancredi, Daniel J.
c861b8d6-7e1b-4de8-806a-a98b430b6901
Sanders, Mary Ellen
6b4fd9e3-4756-484a-85ad-0d757bc53d1b
11 December 2024
Szajewska, Hania
84cfc816-e146-4417-930d-df9ec827f52b
Scott, Karen P.
4beb1ea3-23e0-4e02-baf3-619516aedce7
de Meij, Tim
278d4a75-310b-4dc4-9221-f7b60881cdcf
Forslund-Startceva, Sofia K.
24222277-6164-48d6-be47-2542c031195a
Knight, Rob
b7f1c8b1-5d71-4b9b-8821-9a18563dde58
Koren, Omry
970e15db-24d3-430d-a61f-fc98794d5e32
Little, Paul
1bf2d1f7-200c-47a5-ab16-fe5a8756a777
Johnston, Bradley C.
aea8a5bc-7dfb-465d-9822-78eca821fb38
Łukasik, Jan
8fb259a2-7190-498b-a7f7-33a2be9d5a89
Suez, Jotham
2dd40dff-1c05-47cc-81d3-0df3072935ca
Tancredi, Daniel J.
c861b8d6-7e1b-4de8-806a-a98b430b6901
Sanders, Mary Ellen
6b4fd9e3-4756-484a-85ad-0d757bc53d1b
Szajewska, Hania, Scott, Karen P., de Meij, Tim, Forslund-Startceva, Sofia K., Knight, Rob, Koren, Omry, Little, Paul, Johnston, Bradley C., Łukasik, Jan, Suez, Jotham, Tancredi, Daniel J. and Sanders, Mary Ellen
(2024)
Antibiotic-perturbed microbiota and the role of probiotics.
Nature Reviews Gastroenterology & Hepatology, 22, .
(doi:10.1038/s41575-024-01023-x).
Abstract
The disruptive effect of antibiotics on the composition and function of the human microbiota is well established. However, the hypothesis that probiotics can help restore the antibiotic-disrupted microbiota has been advanced, with little consideration of the strength of evidence supporting it. Some clinical data suggest that probiotics can reduce antibiotic-related side effects, including Clostridioides difficile-associated diarrhoea, but there are no data that causally link these clinical effects to microbiota protection or recovery. Substantial challenges hinder attempts to address this hypothesis, including the absence of consensus on the composition of a ‘normal’ microbiota, non-standardized and evolving microbiome measurement methods, and substantial inter-individual microbiota variation. In this Review, we explore these complexities. First, we review the known benefits and risks of antibiotics, the effect of antibiotics on the human microbiota, the resilience and adaptability of the microbiota, and how microbiota restoration might be defined and measured. Subsequently, we explore the evidence for the efficacy of probiotics in preventing disruption or aiding microbiota recovery post-antibiotic treatment. Finally, we offer insights into the current state of research and suggest directions for future research.
This record has no associated files available for download.
More information
Accepted/In Press date: 8 November 2024
Published date: 11 December 2024
Identifiers
Local EPrints ID: 498619
URI: http://eprints.soton.ac.uk/id/eprint/498619
ISSN: 1759-5045
PURE UUID: fbe24df4-bd82-4387-b897-5898571d0bc7
Catalogue record
Date deposited: 24 Feb 2025 17:41
Last modified: 25 Feb 2025 02:35
Export record
Altmetrics
Contributors
Author:
Hania Szajewska
Author:
Karen P. Scott
Author:
Tim de Meij
Author:
Sofia K. Forslund-Startceva
Author:
Rob Knight
Author:
Omry Koren
Author:
Bradley C. Johnston
Author:
Jan Łukasik
Author:
Jotham Suez
Author:
Daniel J. Tancredi
Author:
Mary Ellen Sanders
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
