Skin substitute-assisted repair shows reduced dermal fibrosis in acute human wounds validated simultaneously by histology and optical coherence tomography.

NS Greaves, SA Iqbal, T Hodgkinson, J Morris, B Benatar, Teresa Alonso Rasgado, M Baguneid, Ardeshir Bayat

Research output: Contribution to journalArticlepeer-review


Skin substitutes are heterogeneous biomaterials designed to accelerate wound healing through provision of replacement extracellular matrix. Despite growing evidence for their use in chronic wounds, the role of skin substitutes in acute wound management and their influence on fibrogenesis remains unclear. Skin substitute characteristics including biocompatibility, porosity, and elasticity strongly influence cellular behavior during wound healing. Thus, we hypothesize that structural and biomechanical variation between biomaterials may induce differential scar formation after cutaneous injury. The following human prospective cohort study was designed to investigate this premise. Four 5-mm full thickness punch biopsies were harvested from 50 volunteers. In all cases, site 1 healed by secondary intention, site 2 was treated with collagen-GAG scaffold (CG), and decellularised dermis (DCD) was applied to site 3 while tissue extracted from site 4 was replaced (autograft). Healing tissue was assessed weekly with optical coherence tomography (OCT), before being excised on days 7, 14, 21, or 28 depending on study group allocation for later histological and immunohistochemical evaluation. Extracted RNA was used in microarray analysis and polymerase chain reaction of highlighted genes. Autograft treatment resulted in minimal fibrosis confirmed immunohistochemically and with OCT through significantly lower collagen I levels (p = 0.047 and 0.03) and reduced mean grayscale values (p = 0.038 and 0.015), respectively. DCD developed intermediate scar formation with partial rete ridge reformation and reduced fasiculonodular fibrosis. It was uniquely associated with late up-regulation of matrix metalloproteinases 1 and 3, oncostatin M, and interleukin-10 (p = 0.007, 0.04, 0.019, 0.019). Regenerated dermis was significantly thicker in DCD and autografts 28 days post-injury compared with control and CG samples (p = 0.003 and <0.0001). In conclusion, variable fibrotic outcomes were observed in skin substitute-treated wounds with reduced scarring in autograft and DCD samples compared with controls. OCT enabled concurrent assessment of wound morphology and quantification of dermal fibrosis.
Original languageEnglish
Pages (from-to)483-494
Number of pages11
JournalWound Repair and Regeneration
Issue number4
Publication statusPublished - Aug 2015


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