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Case Series/Study
We present a cohort of 10 patients with CSTDs caused by trauma. Among them, 5 had open fractures, 2 had burns with deep partial and full-thickness injuries, 1 experienced soft tissue loss from a dog bite, and 2 presented with necrotizing fasciitis. All wounds underwent extensive debridement, fixation of hard tissues, and soft tissue repair in a two-stage process. A PLA dermal matrix was applied to promote the formation of a granulating tissue bed, followed by skin grafting within 14–21 days. The use of PLA dermal matrices is an effective strategy for managing CSTDs. This approach accelerates wound bed preparation, facilitates successful skin grafting, and shortens hospital length of stay. These features suggest that PLA matrices offer a cost-effective solution for treating complex soft tissue defects, improving patient outcomes, and reducing healthcare burden. Further studies are warranted to validate these findings in larger cohorts.
Results: All cases achieved successful skin graft integration without complications, including infection, tissue loss, or mortality. Histological analysis demonstrated increased collagen deposition (Masson’s trichrome staining) and enhanced vascularization with increased CD31-positive blood vessel density in the treated tissues. Applying the PLA matrix enabled rapid wound bed preparation, allowing for early grafting and patient discharge.
Discussion: