Burns are complex traumatic injuries that lead to severe physical and psychological problems due to the prolonged healing period and resulting physical scars. Owing to their versatility, hydrogels can be loaded with various functional factors, making them promising wound dressings. However, many hydrogel dressings cannot support cell survival for a long time, thereby delaying the process of tissue repair. Herein, based on chitosan (CS)/alginate (SA)/poly(ethylene glycol) diacrylate (PEGDA), a basic hydrogel with hemostasis and antibacterial properties was prepared, and loaded with vascular endothelial cadherin (VE-cadherin) and fibroblast growth factors (FGF) to promote the co-culture of various skin cells, suitable for treating various skin injury types: (1) Construct a three-dimensional microenvironment conducive to the release of drugs and factors using natural biological macromolecules CS/SA. (2) Promote the cell growth by loading growth factors. (3) Establish skin burn models of different degrees and observe the repair process. From the results, the 3D microenvironment provided by hydrogel could support the active growth of cells for 12 days. Furthermore, deep burns with full-thickness skin were substantially repaired within about 24 days. Collectively, CS/SA hydrogel containing VE-cadherin and FGF can promote tissue healing in wounds with necrotic tissue, making it an ideal candidate for burn treatment.
Keywords: VE‐cadherin; burn wound healing; hydrogel dressing; promoting cell growth; scaffolds for skin repair.
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