View clinical trials related to Skin Wound.
Filter by:This study aims to compare between using of diathermy versus scalpel in making skin incision during cesarean section to judge the variations in incisional time, incisional blood loss, postoperative pain, wound healing and wound complications.
this project seeks to understand and quantify the effects of powered transtibial prostheses on socket loading and direct measures of residual limb health so as to inform the optimization of prosthesis fit.
The aim of the study is to demonstrate that dermal regeneration photosynthetic matrix applied in patients with acute clean skin wound is safe.
Skin scarring (fibrosis) is a common complication in the wound healing process and remains a therapeutic challenge. Scar formation often occurs following injury to the skin such as surgery, trauma, and burns. The goal of this study is to evaluate the safety and efficacy of visible red light as a modality to reduce skin scarring after mini-facelift surgery. Based on laboratory data, light emitting diode-red light (LED-RL) phototherapy may lessen post-surgical skin fibrosis clinically.
The purpose of this research study is to find our if human amnion membrane powder can be safely used as a covering for wounds and can improve the condition of skin graft donor sites. The amnion powder product is composed of "lyophilized" (freeze-dried), "gamma irradiation sterilized" (exposed to bacteria killing radiation) fragments of amniotic membrane.
The proposed study is designed as a phase Ib open-label, dose-escalation, multicenter study evaluating the safety, tolerability, and efficacy of StrataGraft skin tissue in promoting the healing of the deep partial-thickness component of complex skin defects. The proposed study population will include patients with 3-49% Total Body Surface Area (TBSA) complex skin defects including a deep partial-thickness component resulting from thermal injury. The study has been designed to focus on the evaluation of safety and tolerability of prolonged exposure to increasing amounts of a single application of StrataGraft skin tissue, while also assessing the potential for StrataGraft tissue to promote healing of the deep partial-thickness component of these complex skin defects as an alternative to donor site harvesting and autografting. Targeted enrollment for this study is up to 30 patients with complex skin defects due to thermal burns which require surgical excision and autografting. Subjects will be sequentially enrolled in two cohorts of increasing treatment area receiving StrataGraft skin tissue that has been stored refrigerated prior to clinical use. A third cohort will receive StrataGraft skin tissue which has been stored cryopreserved and thawed in the operating room just prior to grafting.