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Furanone loaded aerogels are effective antibiofilm therapeutics in a model of chronic Pseudomonas aeruginosa wound infection

Furanone loaded aerogels are effective antibiofilm therapeutics in a model of chronic Pseudomonas aeruginosa wound infection
Furanone loaded aerogels are effective antibiofilm therapeutics in a model of chronic Pseudomonas aeruginosa wound infection

Almost 80% of chronic wounds have a bacterial biofilm present. These wound biofilms are caused by a range of organisms and are often polymicrobial. Pseudomonas aeruginosa is one of the most common causative organisms in wound infections and readily forms biofilms in wounds. To coordinate this, P. aeruginosa uses a process known as quorum sensing. Structural homologues of the quorum sensing signalling molecules have been used to disrupt this communication and prevent biofilm formation by Pseudomonas. However, these compounds have not yet reached clinical use. Here, we report the production and characterisation of a lyophilised PVA aerogel for use in delivering furanones to wound biofilms. PVA aerogels successfully release a model antimicrobial and two naturally occurring furanones in an aqueous environment. Furanone loaded aerogels inhibited biofilm formation in P. aeruginosa by up to 98.80%. Further, furanone loaded aerogels successfully reduced total biomass of preformed biofilms. Treatment with a sotolon loaded aerogel yielded a 5.16 log reduction in viable biofilm bound cells in a novel model of chronic wound biofilm, equivalent to the current wound therapy Aquacel AG. These results highlight the potential utility of aerogels in drug delivery to infected wounds and supports the use of biofilm inhibitory compounds as wound therapeutics.

2590-2075
Proctor, Chris R.
2b512c1b-7168-40ac-a81e-57d04d117a5f
Taggart, Megan G.
7df18400-9805-41bf-a6c9-a11a2ab235c8
O'Hagan, Barry M.G.
b0faef76-c49b-4336-9278-66e8c238092a
McCarron, Paul A.
356affcd-c225-404d-89b8-02127d2895c5
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Ternan, Nigel G.
0cda886b-b108-44f0-bd70-55ecaa425be1
Proctor, Chris R.
2b512c1b-7168-40ac-a81e-57d04d117a5f
Taggart, Megan G.
7df18400-9805-41bf-a6c9-a11a2ab235c8
O'Hagan, Barry M.G.
b0faef76-c49b-4336-9278-66e8c238092a
McCarron, Paul A.
356affcd-c225-404d-89b8-02127d2895c5
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Ternan, Nigel G.
0cda886b-b108-44f0-bd70-55ecaa425be1

Proctor, Chris R., Taggart, Megan G., O'Hagan, Barry M.G., McCarron, Paul A., McCarthy, Ronan R. and Ternan, Nigel G. (2023) Furanone loaded aerogels are effective antibiofilm therapeutics in a model of chronic Pseudomonas aeruginosa wound infection. Biofilm, 5, [100128]. (doi:10.1016/j.bioflm.2023.100128).

Record type: Article

Abstract

Almost 80% of chronic wounds have a bacterial biofilm present. These wound biofilms are caused by a range of organisms and are often polymicrobial. Pseudomonas aeruginosa is one of the most common causative organisms in wound infections and readily forms biofilms in wounds. To coordinate this, P. aeruginosa uses a process known as quorum sensing. Structural homologues of the quorum sensing signalling molecules have been used to disrupt this communication and prevent biofilm formation by Pseudomonas. However, these compounds have not yet reached clinical use. Here, we report the production and characterisation of a lyophilised PVA aerogel for use in delivering furanones to wound biofilms. PVA aerogels successfully release a model antimicrobial and two naturally occurring furanones in an aqueous environment. Furanone loaded aerogels inhibited biofilm formation in P. aeruginosa by up to 98.80%. Further, furanone loaded aerogels successfully reduced total biomass of preformed biofilms. Treatment with a sotolon loaded aerogel yielded a 5.16 log reduction in viable biofilm bound cells in a novel model of chronic wound biofilm, equivalent to the current wound therapy Aquacel AG. These results highlight the potential utility of aerogels in drug delivery to infected wounds and supports the use of biofilm inhibitory compounds as wound therapeutics.

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Accepted/In Press date: 27 April 2023
e-pub ahead of print date: 5 May 2023
Published date: 12 May 2023

Identifiers

Local EPrints ID: 506444
URI: http://eprints.soton.ac.uk/id/eprint/506444
DOI: doi:10.1016/j.bioflm.2023.100128
ISSN: 2590-2075
PURE UUID: c6db6a42-12c8-47da-9d1f-2abdd6813690
ORCID for Ronan R. McCarthy: ORCID iD orcid.org/0000-0002-7480-6352

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Date deposited: 07 Nov 2025 17:35
Last modified: 08 Nov 2025 03:19

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Contributors

Author: Chris R. Proctor
Author: Megan G. Taggart
Author: Barry M.G. O'Hagan
Author: Paul A. McCarron
Author: Ronan R. McCarthy ORCID iD
Author: Nigel G. Ternan

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