摘要Excessive production of reactive oxygen species(ROS)and bacterial infection are intractable obstacles for wound healing in diabetic foot ulcers.Here,we devised a novel approach using a multifunctional hydrogel to achieve self-cascade glucose depletion and ROS scavenging,thereby modifying the diabetic wound microenvironment.In this study,using polyvinyl alcohol(PVA),borax,oligomeric proanthocyanidins(OPC),and nanozymes(AuPt@PDA),a PVA/Borax/OPC/AuPt@PDA(PBON)hydrogel was prepared by a one-step process.The PBON hydrogel combined with near-infrared(NIR)treatment can match the complicated and changeable microenvironment in the diabetic high-mobility region through glucose depletion,ROS scav-enging,photothermal therapy(photothermal conversion 81.9%),and deformation adaptation,thus promoting wound healing close to the hip in diabetic mice through angiogenesis and epidermal regeneration by collagen deposition.This approach pro-vides a simple,safe,and efficient treatment for diabetic wounds in mobile regions.