Issue 19, 2024

Light-degradable nanocomposite hydrogels for antibacterial wound dressing applications

Abstract

Skin injuries infected by bacteria can cause life-threatening human diseases if not treated properly. In this work, we developed a light-degradable nanocomposite hydrogel to achieve both controlled antibiotic delivery and hydrogel degradation using light as the sole stimulus. Specifically, we incorporated triclosan-loaded, poly(N-isopropylacrylamide)-based nanogels (TCS-NGs) that exhibited potent antibacterial efficacy, into a light-degradable poly (ethylene glycol) (PEG)-based hydrogel matrix via simple physical entrapment method. Upon exposure to 365 nm light, the hydrogel matrix could rapidly degrade, which subsequently released the entrapped TCS-NGs into the surrounding environment. Our results demonstrated that TCS-NGs released from light-degradable nanocomposite hydrogels still possessed remarkable antibacterial efficacy by inhibiting the growth of Staphylococcus aureus both in solution (a fivefold reduction in optical density compared to the blank control) and on bacteria-infected porcine skins (a fivefold reduction in colony-forming units compared to the blank control). Finally, using an alamarBlue assay on human dermal fibroblasts, we determined that each component of the nanocomposite hydrogel exhibited excellent biocompatibility (>90% cell viability) and would not cause significant cytotoxicity. Overall, the fabricated light-degradable nanocomposite hydrogels could serve as novel material for antibacterial wound dressing applications.

Graphical abstract: Light-degradable nanocomposite hydrogels for antibacterial wound dressing applications

Supplementary files

Article information

Article type
Paper
Submitted
02 Feb 2024
Accepted
12 Apr 2024
First published
23 Apr 2024

J. Mater. Chem. B, 2024,12, 4686-4697

Light-degradable nanocomposite hydrogels for antibacterial wound dressing applications

C. Fang, Q. Shen, Y. Zhang, K. Kanemaru and M. J. Serpe, J. Mater. Chem. B, 2024, 12, 4686 DOI: 10.1039/D4TB00222A

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