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Antifouling polyurethanes to fight device-related staphylococcal infections: synthesis, characterization and antibiofilm efficacy

Antifouling polyurethanes to fight device-related staphylococcal infections: synthesis, characterization and antibiofilm efficacy
Antifouling polyurethanes to fight device-related staphylococcal infections: synthesis, characterization and antibiofilm efficacy
In hospital settings, biofilm-based medical device-related infections are considered a threat to patients, the sessile growing bacteria playing a key role in the spreading of healthcare-associated infections. In last decades, the design of antifouling coatings for medical devices able to prevent microbial adhesiveness has emerged as one of the most promising strategies to face this important issue. In order to obtain suitable antifouling materials, segmented polyurethanes characterized by a hard/soft domain structure, having the same hard domain but a variable soft domain, have been synthesized. The soft domain was constituted by one of the following macrodiols: polypropylenoxide (PPO), polycaprolactide (PCL) and poly-l-lactide (PLA). The effects of the polymer hydrophilicity and the degree of hard/soft domain separation on antifouling properties of the synthesized polyurethanes were investigated. Microbial adherence assays evidenced as the polymers containing PCL or PLA were able to significantly reduce the adhesion of Staphylococcus epidermidis with respect to the PPO-containing polymer.
antifouling coatings, microbial biofilms, polyurethanes, medical devices, infections, staphylococcus epidermidis
401-407
Francolini, I.
fbca2b3f-ff4a-45fa-b0c2-66810e708a19
Donelli, G.
85587f94-aec1-4351-8f6e-ba22adad8c13
Vuotto, C.
7c643972-cd99-4529-bf51-e7137ee1812d
Baroncini, F. A.
f9966fb2-8184-4f0c-bba6-2aea1d40d73e
Stoodley, P.
08614665-92a9-4466-806e-20c6daeb483f
Taresco, V.
0ce86c8f-9504-4720-8e9c-6334ea92597e
Martinelli, A.
08d3ffd5-cf78-4a97-bcd2-8d63589d26a0
D'Ilario, L.
1324468f-7811-4885-a698-43ddfb065223
Piozzi, A.
b3a04b05-c606-4f04-9d15-feb7d9ff2752
Francolini, I.
fbca2b3f-ff4a-45fa-b0c2-66810e708a19
Donelli, G.
85587f94-aec1-4351-8f6e-ba22adad8c13
Vuotto, C.
7c643972-cd99-4529-bf51-e7137ee1812d
Baroncini, F. A.
f9966fb2-8184-4f0c-bba6-2aea1d40d73e
Stoodley, P.
08614665-92a9-4466-806e-20c6daeb483f
Taresco, V.
0ce86c8f-9504-4720-8e9c-6334ea92597e
Martinelli, A.
08d3ffd5-cf78-4a97-bcd2-8d63589d26a0
D'Ilario, L.
1324468f-7811-4885-a698-43ddfb065223
Piozzi, A.
b3a04b05-c606-4f04-9d15-feb7d9ff2752

Francolini, I., Donelli, G., Vuotto, C., Baroncini, F. A., Stoodley, P., Taresco, V., Martinelli, A., D'Ilario, L. and Piozzi, A. (2014) Antifouling polyurethanes to fight device-related staphylococcal infections: synthesis, characterization and antibiofilm efficacy. Pathogens and Disease, 70 (3), 401-407. (doi:10.1111/2049-632X.12155).

Record type: Article

Abstract

In hospital settings, biofilm-based medical device-related infections are considered a threat to patients, the sessile growing bacteria playing a key role in the spreading of healthcare-associated infections. In last decades, the design of antifouling coatings for medical devices able to prevent microbial adhesiveness has emerged as one of the most promising strategies to face this important issue. In order to obtain suitable antifouling materials, segmented polyurethanes characterized by a hard/soft domain structure, having the same hard domain but a variable soft domain, have been synthesized. The soft domain was constituted by one of the following macrodiols: polypropylenoxide (PPO), polycaprolactide (PCL) and poly-l-lactide (PLA). The effects of the polymer hydrophilicity and the degree of hard/soft domain separation on antifouling properties of the synthesized polyurethanes were investigated. Microbial adherence assays evidenced as the polymers containing PCL or PLA were able to significantly reduce the adhesion of Staphylococcus epidermidis with respect to the PPO-containing polymer.

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More information

Published date: 2014
Keywords: antifouling coatings, microbial biofilms, polyurethanes, medical devices, infections, staphylococcus epidermidis
Organisations: nCATS Group

Identifiers

Local EPrints ID: 362366
URI: http://eprints.soton.ac.uk/id/eprint/362366
DOI: doi:10.1111/2049-632X.12155
PURE UUID: 9fe7ad38-2441-44a3-8f0b-e5d5ef3eb3b5
ORCID for P. Stoodley: ORCID iD orcid.org/0000-0001-6069-273X

Catalogue record

Date deposited: 24 Feb 2014 11:39
Last modified: 15 Mar 2024 03:34

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Contributors

Author: I. Francolini
Author: G. Donelli
Author: C. Vuotto
Author: F. A. Baroncini
Author: P. Stoodley ORCID iD
Author: V. Taresco
Author: A. Martinelli
Author: L. D'Ilario
Author: A. Piozzi

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