Introduction: Timely coverage of an excised burn wound with a split-thickness skin graft, and efficient epithelialization at the donor site wound are key components in the treatment of burn patients. Prompt healing is dependent on paracrine support from underlying dermal connective tissue fibroblasts.
Study aim: Using the skin graft donor site in pig as a model for epithelialization, our aim was to evaluate if dermal signals, derived from cultured dermal fibroblast aggregates (Finectra), can promote epidermal regeneration.
Materials and methods: Partial-thickness skin wounds were made with a dermatome on the backs of three domestic pigs. After randomization, topical treatment was initiated by application of Finectra (n=6) or factors from standard fibroblast monolayer cultures (n=6) trapped in a slow-clotting fibrin matrix. Saline was applied to contralateral wounds to serve as corresponding untreated controls (n=12). After 3 days, full-thickness skin samples representing the whole wound area were obtained. Histological sections of these samples were analyzed for epithelialization, cell migration from lateral wound edges and hair follicles, as well as for formation of granulation tissue.
Results: In response to topical delivery of Finectra, a significant acceleration of epithelialization (p<0.001) across the wound surface as well as from the wound edges was evident. Marked increase in thickness of granulation tissue (p<0.001) was noted in wounds treated with Finectra. Epihelialization originated from adnexal structures in which epithelial islets showed positive staining for cytokeratin-14 and PCNA.
Conclusion: These data show that the fibroblast aggregate-derived paracrine mediators, Finectra, stimulate epidermal regeneration in vivo.
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