Issue 23, 2024

Long-term antifouling surfaces for urinary catheters

Abstract

The presence of a variety of bacteria is an inevitable/indispensable part of human life. In particular, for patients, the existence and spreading of bacteria lead to prolonged treatment period with many more complications. The widespread use of urinary catheters is one of the main causes for the prevalence of infections. The necessity of long-term use of indwelling catheters is unavoidable in terms of the development of bacteriuria and blockage. As is known, since a permanent solution to this problem has not yet been found, research and development activities continue actively. Herein, polyethylene glycol (PEG)-like thin films were synthesized by a custom designed plasma enhanced chemical vapor deposition (PE-CVD) method and the long-term effect of antifouling properties of PEG-like coated catheters was investigated against Escherichia coli and Proteus mirabilis. The contact angle measurements have revealed the increase of wettability with the increase of plasma exposure time. The antifouling activity of surface-coated catheters was analyzed against the Gram-negative/positive bacteria over a long-term period (up to 30 days). The results revealed that PE-CVD coated PEG-like thin films are highly capable of eliminating bacterial attachment on surfaces with relatively reduced protein attachment without having any toxic effect. Previous statements were supported with SEM, XPS, FTIR spectroscopy, and contact angle analysis.

Graphical abstract: Long-term antifouling surfaces for urinary catheters

Supplementary files

Article information

Article type
Paper
Submitted
15 Feb 2024
Accepted
01 May 2024
First published
07 May 2024
This article is Open Access
Creative Commons BY-NC license

J. Mater. Chem. B, 2024,12, 5711-5721

Long-term antifouling surfaces for urinary catheters

M. Tüfekçi, S. Hamarat, T. D. Çalışkan, H. F. Özgüzar, A. E. Meydan, J. S. Göçmen, E. Evren, M. İ. Gökçe and H. Goktas, J. Mater. Chem. B, 2024, 12, 5711 DOI: 10.1039/D4TB00311J

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