首页|Glucose-responsive multifunctional metal–organic drug-loaded hydrogel for diabetic wound healing
Glucose-responsive multifunctional metal–organic drug-loaded hydrogel for diabetic wound healing
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NSTL
Elsevier
? 2021 Acta Materialia Inc.As the incidence of diabetes increases, its complication, diabetic foot ulcers, has become the main type of clinically chronic refractory wounds. Due to the hyperglycemic microenvironment of the diabetic wound, which leads to vascular defects and bacterial growth, the therapeutic effect of wound dressings lacking strategic design is relatively limited. In this study, we designed an injectable, “self-healing”, and glucose-responsive multifunctional metal–organic drug-loaded hydrogel (DG@Gel) for diabetic wound healing. The functionalized hydrogel was prepared by phase-transfer-mediated metallo-nanodrugs, which were made by co-assembling zinc ions, organic ligands, and a small-molecule drug, deferoxamine mesylate (DFO), and the programmed loading of glucose oxidase (GOX). When injected into a diabetic wound, the GOX in DG@Gel changed the hyperglycemic wound microenvironment by decomposing excess glucose into hydrogen peroxide and glucuronic acid, which decreased the pH of the wound site. The low pH promoted the release of zinc ions and DFO, which exhibited synergistic antibacterial and angiogenesis activity for diabetic wound repair. In vitro experiments revealed the antibacterial activity and the cell proliferation, migration, and tube formation ability of DG@Gel. Moreover, in vivo experiments showed that DG@Gel can induce re-epithelialization, collagen deposition, and angiogenesis during wound healing in diabetic mice with good biocompatibility and biodegradability. The results suggest that this hydrogel is a promising innovative dressing for the treatment of diabetic wounds. Statement of significance: Diabetic ulcers, as one of the main types of chronic refractory wounds, are not treated effectively in the clinic due to a lack of strategic approach. In this study, we designed a glucose-responsive multifunctional metal–organic drug-loaded hydrogel (DG@Gel), which can change the hyperglycemic wound microenvironment by decomposing excess glucose into hydrogen peroxide and glucuronic acid. This in turn promoted the release of zinc ions and deferoxamine mesylate (DFO) in the hydrogel, which exhibited synergistic antibacterial and angiogenic activity for diabetic wound repair. Furthermore, the DG@Gel exhibited good biocompatibility and biodegradability in vivo. In general, this innovative strategy design may have great application potential in the treatment of various chronic wounds.
NSTL
Elsevier
