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Comparative Study
Improving cutaneous scar formation by controlling the mechanical environment: large animal and phase I studies.
- Geoffrey C Gurtner, Reinhold H Dauskardt, Victor W Wong, Kirit A Bhatt, Kenneth Wu, Ivan N Vial, Karine Padois, Joshua M Korman, and Michael T Longaker.
- Department of Surgery, Stanford University, Stanford, CA 94305, USA.
- Ann. Surg. 2011 Aug 1; 254 (2): 217225217-25.
ObjectiveTo test the hypothesis that the mechanical environment of cutaneous wounds can control scar formation.BackgroundMechanical forces have been recognized to modulate myriad biologic processes, but the role of physical force in scar formation remains unclear. Furthermore, the therapeutic benefits of offloading cutaneous wounds with a device have not been rigorously tested.MethodsA mechanomodulating polymer device was utilized to manipulate the mechanical environment of closed cutaneous wounds in red Duroc swine. After 8 weeks, wounds subjected to different mechanical stress states underwent immunohistochemical analysis for fibrotic markers. In a phase I clinical study, 9 human patients undergoing elective abdominal surgery were treated postoperatively with a stress-shielding polymer on one side whereas the other side was treated as standard of care. Professional photographs were taken between 8 and 12 months postsurgery and evaluated using a visual analog scale by lay and professional panels. This study is registered with ClinicalTrials.gov, number NCT00766727.ResultsStress shielding of swine incisions reduced histologic scar area by 6- and 9-fold compared to control and elevated stress states, respectively (P < 0.01 for both) and dramatically decreased the histologic expression of profibrotic markers. Closure of high-tension wounds induced human-like scar formation in the red Duroc, a phenotype effectively mitigated with stress shielding of wounds. In the study on humans, stress shielding of abdominal incisions significantly improved scar appearance (P = 0.004) compared with within-patient controls.ConclusionsThese results indicate that mechanical manipulation of the wound environment with a dynamic stress-shielding polymer device can significantly reduce scar formation.
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