Infection protection, immune regulation and epithelial regeneration trifunctional hydrogel for treatment of burn wounds.
Xingyue Chen, Jiachen Lu, Zhaojun Wu, Haopeng Zhang, Wei Zheng, Huanghe Zeng, Dongbiao Chang, Jie Weng, Jinsheng Li, Tailin Guo
Abstract
Open AccessSevere burn wounds are characterized by epithelial disruption and persistent inflammation, which impede re-epithelialization and heighten susceptibility to bacterial colonization and invasion, thereby posing serious clinical risks. To address these challenges, we developed an innovative smart hydrogel (Ag-IMP-U@Cur), in which uridine (U) is incorporated as a backbone-forming component via reversible boronate ester bonds with phenylboronic acid, thereby endowing the hydrogel with dual functions of acidic microenvironment responsiveness and promotion of re-epithelialization. The Ag-IMP complex serves as a structural scaffold that reinforces the network stability, while the combination of Ag-IMP and Cur-loaded ZIF-8 (Cur-ZIF-8) imparts controlled-release, antibacterial, and anti-inflammatory properties. In vitro and in vivo studies demonstrate that this hydrogel markedly suppresses infection and inflammation while accelerating wound closure. Collectively, this work introduces an innovative strategy that integrates a nucleoside unit, metal ions, and a phytochemical into a responsive multifunctional hydrogel, offering a promising therapeutic avenue for severe burn injuries.