Self‐Adhesive Hyaluronic Acid/Antimicrobial Peptide Composite Hydrogel with Antioxidant Capability and Photothermal Activity for Infected Wound Healing

Abstract Bacterial infection can delay wound healing, causing wounds to deteriorate and even threaten the patient's life. Recently, although many composite hydrogels as wound dressing have been developed, it is still highly desired to construct photothermal hydrogels with antimicrobial and antioxidant properties to accelerate the infected wound healing. In this work, a hyaluronic acid (HA)‐based composite hydrogel consisting of a dopamine‐substituted antimicrobial peptide (DAP) and Iron (III) ions is developed, which exhibits photothermal‐assisted promotion and acceleration of healing process of bacteria‐infected wounds. DAP, serving as both antimicrobial agent and ROS‐scavenger, forms Schiff's base bonds with aldehyde hyaluronic acid (AHA) and iron‐catechol coordination bonds to reinforce the composite hydrogel. The presence of Fe 3+ can also promote covalent polymerization of dopamine, which endows the hydrogel with photothermal capacity. The in vitro and in vivo experiments prove that the composite hydrogel can effectively accelerate the infected wound healing process, including antibacterial, accelerated collagen deposition, and re‐epithelization. This study suggests that the multifunctional composite hydrogel possesses remarkable potential for bacteria‐infected wound healing by combining inherent antimicrobial activity, antioxidant capability, and photothermal effect.