CAUTI’s next top model – Model dependent Klebsiella biofilm inhibition by bacteriophages and antimicrobials
CAUTI’s next top model – Model dependent Klebsiella biofilm inhibition by bacteriophages and antimicrobials
Klebsiella infections, including catheter associated urinary tract infections, are a considerable burden on health care systems. This is due to their difficulty to treat, caused by antimicrobial resistance and their ability to form biofilms. In this study, we investigated the use of a Klebsiella phage cocktail to reduce biofilm viability. We used two methodologies to investigate this, a standard 96-well plate assay and a more complicated Foley catheter-based model. The phage cocktail was used alone and in combination with clinically relevant antibiotic treatments. Viability was measured by both a resazurin based stain and colony forming unit counts, of cells sloughed off from the biofilm. We showed that phage infection dynamics and host survival vary significantly in different standard laboratory media, presumably due to the expression of different surface receptors and capsule composition by the bacteria effecting phage binding. This underscores the importance of a realistic model for developing phage therapy.
We demonstrate that bacteriophage-based treatments are a viable option for preventing Klebsiella colonisation and biofilm formation on urinary catheters. Phage cocktails were able to significantly reduce the amount of biofilm that formed when they were present during early biofilm formation. The phages used in this study were unable to significantly reduce a pre-formed mature biofilm, despite encoding depolymerases. Phages applied together with antimicrobial treatments, showed synergistic interactions, in some cases the combined treatment was much more effective than antimicrobial treatments alone.
We show that phage cocktails have the potential to prevent Klebsiella biofilms in catheters, if used early or as a preventative treatment and will work well alongside standard antibiotics in the treatment of catheter-associated urinary tract infections (CAUTI).
Townsend, Eleanor M.
bf4422f1-1924-4791-9a59-3bded74e74b3
Moat, John
43a1c074-5bc1-4dc9-95df-1749f399099c
Jameson, Eleanor
00e2bf3d-789a-40f3-9af0-6450def09852
1 December 2020
Townsend, Eleanor M.
bf4422f1-1924-4791-9a59-3bded74e74b3
Moat, John
43a1c074-5bc1-4dc9-95df-1749f399099c
Jameson, Eleanor
00e2bf3d-789a-40f3-9af0-6450def09852
Townsend, Eleanor M., Moat, John and Jameson, Eleanor
(2020)
CAUTI’s next top model – Model dependent Klebsiella biofilm inhibition by bacteriophages and antimicrobials.
Biofilm, 2 (100038), [100038].
(doi:10.1016/j.bioflm.2020.100038).
Abstract
Klebsiella infections, including catheter associated urinary tract infections, are a considerable burden on health care systems. This is due to their difficulty to treat, caused by antimicrobial resistance and their ability to form biofilms. In this study, we investigated the use of a Klebsiella phage cocktail to reduce biofilm viability. We used two methodologies to investigate this, a standard 96-well plate assay and a more complicated Foley catheter-based model. The phage cocktail was used alone and in combination with clinically relevant antibiotic treatments. Viability was measured by both a resazurin based stain and colony forming unit counts, of cells sloughed off from the biofilm. We showed that phage infection dynamics and host survival vary significantly in different standard laboratory media, presumably due to the expression of different surface receptors and capsule composition by the bacteria effecting phage binding. This underscores the importance of a realistic model for developing phage therapy.
We demonstrate that bacteriophage-based treatments are a viable option for preventing Klebsiella colonisation and biofilm formation on urinary catheters. Phage cocktails were able to significantly reduce the amount of biofilm that formed when they were present during early biofilm formation. The phages used in this study were unable to significantly reduce a pre-formed mature biofilm, despite encoding depolymerases. Phages applied together with antimicrobial treatments, showed synergistic interactions, in some cases the combined treatment was much more effective than antimicrobial treatments alone.
We show that phage cocktails have the potential to prevent Klebsiella biofilms in catheters, if used early or as a preventative treatment and will work well alongside standard antibiotics in the treatment of catheter-associated urinary tract infections (CAUTI).
This record has no associated files available for download.
More information
Published date: 1 December 2020
Identifiers
Local EPrints ID: 477953
URI: http://eprints.soton.ac.uk/id/eprint/477953
ISSN: 2590-2075
PURE UUID: ca789f2c-b232-403b-83d2-45d049bfe5e3
Catalogue record
Date deposited: 16 Jun 2023 16:54
Last modified: 16 Mar 2024 17:32
Export record
Altmetrics
Contributors
Author:
Eleanor M. Townsend
Author:
John Moat
Author:
Eleanor Jameson
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