Long-Term Reduction of Bacterial Adhesion on Polyurethane by an Ultra-Thin Surface Modifier

Long-Term Reduction of Bacterial Adhesion on Polyurethane by an Ultra-Thin Surface Modifier

Indwelling urinary catheters are employed widely to relieve urinary retention in patients. A common side effect of the use of these catheters is the formation of urinary tract infections (UTIs), which can lead not only to severe medical complications, but even to death. A number of approaches have b...

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Bibliographic Details
Published in:Biomedicines Vol. 10; no. 5; p. 979
Main Authors: De La Franier, Brian, Asker, Dalal, Hatton, Benjamin, Thompson, Michael
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 01-05-2022
MDPI
Subjects:
anti-fouling
Antibiotics
Bacteria
Catheters
Coatings
Cytotoxicity
E coli
Ethanol
Fouling
Gram-negative bacteria
Gram-positive bacteria
Humidity
long term
Medical equipment
microbes
monoethylene glycol
Patients
Polyurethane
polyurethane biofilms
Polyurethanes
Staphylococcus infections
Sterilization
Urinary tract
Urinary tract infections
Canada
United States > US
Japan
fouling
monoethylene glycol
long term
polyurethane biofilms
microbes
anti-fouling
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Summary:Indwelling urinary catheters are employed widely to relieve urinary retention in patients. A common side effect of the use of these catheters is the formation of urinary tract infections (UTIs), which can lead not only to severe medical complications, but even to death. A number of approaches have been used to attempt reduction in the rate of UTI development in catheterized patients, which include the application of antibiotics and modification of the device surface by coatings. Many of these coatings have not seen use on catheters in medical settings due to either the high cost of their implementation, their long-term stability, or their safety. In previous work, it has been established that the simple, stable, and easily applicable sterilization surface coating 2-(3-trichlorosilylpropyloxy)-ethyl hydroxide (MEG-OH) can be applied to polyurethane plastic, where it greatly reduces microbial fouling from a variety of species for a 1-day time period. In the present work, we establish that this coating is able to remain stable and provide a similarly large reduction in fouling against and for time periods in an excess of 30 days. This non-specific coating functioned against both Gram-positive and Gram-negative bacteria, providing a log 1.1 to log 1.9 reduction, depending on the species and day. This stability and continued efficacy greatly suggest that MEG-OH may be capable of providing a solution to the UTI issue which occurs with urinary catheters.
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ISSN:2227-9059
2227-9059
DOI:10.3390/biomedicines10050979