Smart self-defensive coatings with bacteria-triggered antimicrobial response for medical devices.

Biomater Sci

Politecnico di Torino, Department of Mechanical and Aerospace Engineering, Torino 10129, Italy.

Published: October 2024

AI Article Synopsis

  • * The review discusses innovative biomaterials designed with smart coatings that respond to bacterial presence, allowing for on-demand antibacterial action and reducing the reliance on traditional antibiotics.
  • * It emphasizes the importance of developing these self-defensive coatings to minimize antibiotic resistance, protect the natural microbiome, and ultimately lower healthcare expenses while exploring future improvements in this field.

Article Abstract

Bacterial colonization and biofilm formation on medical devices represent one of the most urgent and critical challenges in modern healthcare. These issues not only pose serious threats to patient health by increasing the risk of infections but also exert a considerable economic burden on national healthcare systems due to prolonged hospital stays and additional treatments. To address this challenge, there is a need for smart, customized biomaterials for medical device fabrication, particularly through the development of surface modification strategies that prevent bacterial adhesion and the growth of mature biofilms. This review explores three bioinspired approaches through which antibacterial and antiadhesive coatings can be engineered to exhibit smart, stimuli-responsive features. This responsiveness is greatly valuable as it provides the coatings with a controlled, on-demand antibacterial response that is activated only in the presence of bacteria, functioning as self-defensive coatings. Such coatings can be designed to release antibacterial agents or change their surface properties/conformation in response to specific stimuli, like changes in pH, temperature, or the presence of bacterial enzymes. This targeted approach minimizes the risk of developing antibiotic resistance and reduces the need for continuous, high-dose antibacterial treatments, thereby preserving the natural microbiome and further reducing healthcare costs. The final part of the review reports a critical analysis highlighting the potential improvements and future evolutions regarding antimicrobial self-defensive coatings and their validation.

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Source
http://dx.doi.org/10.1039/d4bm00936cDOI Listing

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