View clinical trials related to Wound of Skin.
Filter by:Many patients suffer from chronic non-healing wounds as well as acute wounds. There is a need to develop treatments to accelerate and improve healing of chronic and acute wounds. More research is needed to evaluate the role of 4-aminopyridine (4-AP), a promising new agent with an excellent safety profile, on wound healing. The investigational treatment will be used to evaluate the role of (4-AP) on the treatment of wounds to accelerate wound healing in healthy adults. The purpose of this study is to evaluate the role of 4-AP on the treatment of wounds to accelerate healing. The investigational treatment will be used to test the hypothesis that 4-AP can speed wound healing.
The purpose of this study is to determine the effect to which Suprathel® (Polymedics Innovations GmbH, Denkendorf, Germany) can reduce the need for grafting compared to Standard of Care (SoC). Furthermore, the study intends to evaluate if Suprathel® allows for a reduction of reduction of pain, infection, provider workload, scar development and costs compared to SoC.
This study evaluates Microscopic Skin Tissue Column (MSTC) grafting technique using the Autologous Regeneration Tissue (ART) System in the treatment of skin loss. Each participant will have three study treated areas, the three treatments include: 1. traditional grafting, 2. high density MSTC, 3. low density MSTC.
The study will examine the effectiveness of a decellularized dermal matrix (i.e., DermGEN™) in improving wound healing, quality of life and associated costs of treatment of DFUs in First Nations people living in the Northwestern Ontario Communities. First Nations people with active diabetic foot (DFU) ulcer attending a wound care clinic located at the Rainy River district office. An interventional, two-arm, randomized, prospective study of (1) standard of care (control) vs. (2) DermGEN™ - a decellularized dermal matrix (treatment) will be used in the treatment and management of DFU. Patients will be randomized to each arm (n=60 per arm) based on power calculations using data from our Pilot study.
The objective of this study is to validate the proof of concept regarding the approach of manual implantation of full-thickness skin microcolumns (FTSMs) into a dermal regeneration template as coverage for open wounds without creating an additional donor scar and while also capitalizing on the wound healing benefits offered by full-thickness skin grafts.
Evaluation and characterization of autofluorescence signals of tissue in and around wounds as identified by MolecuLight fluorescence image.
This study will evaluate the use of free autologous dermal fat grafting (also called free dermal fat autografting) to treat complex craniofacial wounds that have failed standard treatment and to understand how well these grafts work to repair wounds long term. Patients who have undergone free autologous dermal fat grafting to treat complex craniofacial wounds less than 1 week ago will have photographs and small biopsies taken of the area that was grafted. Patients will be followed for 2 years to monitor the area that was grafted.