Background: The shortage of autologous skin sources not only adds difficulty to the repair of extremely large-area deep burn wounds but affects the healing quality. The aim of the present study is to explore an ideal method for repairing large-areas burn wounds with low scar formation.
Methods: Between 2002 and 2014, we used grafting of small auto- and cryopreserved allo-skin to repair large-area residual burn wounds in wounds after 21 days 21 patients, and after early excision in 17 patients. The wound healing rate and quality were observed.
Results: The skin expansion rate was 1:9-1:16, and the mean area of wounds repaired after three weeks was 64.8±7.3%TBSA, the wound healing rate was 91.8±3.7%. The mean area of the early excision group was 65.9±9.8 TBSA, where the healing rate was 94.5±5.6%. After small auto- and cryopreserved allograft skin grafting, the epidermis of the auto-skin gradually replaced the allo-epidermis, and the allo-dermis persisted for a prolonged period. The dermal collagen fibers at the allo-skin grafting sites were well arranged. At 1-2-year follow-up, observation showed that the Vancouver Scar Scale total score was 4·304±2·363, and we did not discern significant contracture and dysfunction in the large joints of the four extremities.
Conclusions: Small auto- and cryopreserved allograft skin grafting of small auto- and allo-skin not only raised the graft expansion rate but offers a stable wound healing rate. This new technique may provide an option for repair of large-area deep burn wounds.
Keywords: Mixed grafting; Residual wound; Scar formation; Severe burns; Wound healing.
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