7 Clinical Trials for Various Conditions
The study hypothesis is that the use of running epidermal sutures in full-thickness skin graft (FTSG) placement for patients undergoing dermatologic surgery (Mohs micrographic surgery or excision) is non-inferior to the use of simple interrupted sutures with respect to cosmetic outcome. This will be a split-scar (within-person) study, in which half of each participant's scar will receive the study intervention (running epidermal sutures), with the other half receiving the control intervention (simple interrupted sutures). The primary outcome, total observer score of the Patient and Observer Scar Assessment Scale (POSAS) 2.0, will be assessed by two blinded observers at a 3-month follow-up visit, and compared between scar halves.
Scarring from burn wounds remains a chronic and often severe sequela of burn injury. Burn wounds may be left to heal by secondary intention or treated with surgical skin grafting; in both circumstances, significant scars likely result. When surgical skin grafting is employed, skin graft harvest sites ("donor sites") likewise result in clinically significant scars. This study will have interventional and observational components. Patients will receive the standard fractional ablative CO2 treatments to their scars resulting from burn wounds allowed to heal by secondary intention and/or those treated with skin grafts. These will be prospectively observed for the duration of the study as well as adjacent normal skin. In addition, a donor site that meets inclusion criteria that would not have otherwise received LSR will be identified as a treatment site. Patients with have one half of their donor sites randomized to standard of care (SOC) treatment, which consists of wound dressings, compression therapy, physical and occupational therapies and the other half randomized to SOC + ablative fractional CO2 laser therapy (LSR).
Doctors and patients refer to all areas of skin changes from burn injury as burn scars. However, different areas of scars from burns can be treated differently. The burn scars that come from skin grafting surgery might be improved with laser treatment. The purpose of this study is to see if treating burn skin graft scars with a laser could make it better. Fractional Ablative Laser has been approved by the US Food and Drug Administration (FDA), but it has not been approved for use in the early stages of scar maturation and is considered investigational for this study.
Syndactyly is the most common hand abnormality in children. During development, two or more fingers do not separate in the usual way and remain connected by skin. Surgery is needed to separate the fingers. Usually, it is performed between 6 months and 3 years of age, depending on the severity of the syndactyly. During the surgery, the fingers are separated; however, there isn't enough skin to completely cover the fingers once they are separated. There are two areas on the fingers that need to be covered after separation, and there is a standard method, and now a new technique to cover these areas. The standard current technique that surgeons use to cover the newly separated fingers is to apply a small section of the patient's own skin taken from a different area of their body (this is known as a skin graft). A new technique called Hyaluronic acid matrix (Hyalomatrix®) is a U.S. Food and Drug Administration (FDA) approved, commercially available, skin graft substitute that is currently being used both in the US and in Europe. The Hyalomatrix (or skin graft substitute) is sutured into place using a stitch on each corner, over the areas left without skin covering during the surgery. The purpose of this study is to compare effectiveness, wound healing, scar formation and potential associated complications of the current skin graft technique with the new technique called Hyalomatrix (or skin graft substitute) following surgery.
The study's objective is to compare the global scar outcomes in those treated with silicone only therapy (SOT) versus silicone pressure garment therapy (SPGT) for the prevention of hypertrophic scarring in children with skin grafts after traumatic skin injury.
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 purpose of this study is to determine if using a DERMAL LAYER under skin grafts: 1. will reduce scar formation of skin grafts 2. will reduce burn wound contractures 3. will improve functional outcome of joints requiring grafts Compare scarring outcome of Dermal products