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An Antibacterial and Anti‐Inflammatory Hemostatic Adhesive with Dual Zn <sup>2+</sup> and NO Release for the Neurovascular Electrostimulation of Infected Diabetic Wounds

Wenlong Wei, Jiayi Zheng, Zhenwu Zhong, Ding Wen, Yuanling Huang, Ziru Liu, Xiangyu Chen, Wenyue Yang, Sui Shi, Bei Jin, Pier‐Luc Tremblay, Tian Zhang

2025Advanced Healthcare Materials8 citationsDOI

Abstract

Abstract Diabetic wounds are difficult to heal because chronic infection, reactive oxygen species (ROS) in excess, and persistent inflammation repeatedly damage skin structures including blood vessels and nerves. Efficacious dressings developed for treating diabetic wounds should address these issues concurrently. Here, a multifunctional hydrogel adhesive system made by photocrosslinking arginine‐functionalized methacrylated chitosan with gallic‐acid‐functionalized gelatin methacryloyl is reported. The resulting scaffold (ACGG) is loaded with a laponite delivery system gorged with Zn 2+ (Zn@LAP; ZL). Because of the synergy between its components, the complete hydrogel, ACGG‐ZL, is robust, flexible, adhesive, biodegradable, and conductive, which is an essential feature for skin wound treatment via electrostimulation (ES). Most importantly, ACGG‐ZL released in an intelligent manner two bioactive molecules upon exposure to ROS: antibacterial, antioxidative, and anti‐inflammatory NO and Zn 2+ . In vitro assays indicates that ACGG‐ZL eliminates pathogens, including MRSA, and promotes the proliferation of fibroblasts, endothelial cells, and neuronal precursors, which are all involved in skin tissue remodeling. When combined with ES, hemostatic ACGG‐ZL accelerated significantly infected skin wound healing in a diabetic animal model by clearing pathogens, quenching inflammation, stimulating fibroblasts, and promoting neurovascular tissue regeneration. Overall, ACGG‐ZL with ES provides a multifunctional, efficacious approach for the treatment of complex diabetic injuries.

Topics & Concepts

Wound healingInflammationRegeneration (biology)Neurovascular bundleReactive oxygen speciesPharmacologyGelatinSelf-healing hydrogelsChitosanMedicineMaterials scienceChemistrySurgeryImmunologyBiochemistryCell biologyBiologyPolymer chemistry3D Printing in Biomedical ResearchWound Healing and TreatmentsSurgical Sutures and Adhesives