6 Clinical Trials for Various Conditions
To evaluate the safety and efficacy of realSKIN® to provide complete wound closure of mixed-depth, full-thickness burn wounds as an alternative treatment to autografting.
Burn injury is marked by a large release of inflammatory mediators which disrupt the normal capillary barrier and cause a rapid shift of intravascular fluid into interstitial spaces, ultimately leading to shock and death. As such, adequate fluid management and resuscitation is critical for burn patients to prevent further cellular injury. Technologies and medical options such as cardiac output monitoring along with early tube feeding and vitamin C administration have developed slowly over the years. Effective management of the Systemic Inflammatory Response Syndrome response and metabolic derangement is crucial for the survival of burn patients. In particular, vitamin C administration has shown to significantly decreases early post-burn lipid peroxidation, reduce microvascular leak of fluid by preventing endothelial dysfunction, and decreases edema formation in burned tissue. Vitamin C is a cheap and widely available antioxidant which has been shown to significantly effective in positively impacting clinical outcomes in burn resuscitation. We aim to evaluate the efficacy of vitamin C in burns greater than 20% total body surface area on clinical outcomes such as length of hospital stay, total fluid requirements, and mortality.
This study is a randomized, double blind, placebo controlled trial at a single site. The primary objective is to evaluate the safety of ST266 in diabetic subjects with deep burns. The secondary objectives of this study are to (1) evaluate efficacy of ST266 in healing burns and (2) evaluate whether treatment with ST266 results in less scarring, in subjects with diabetes separately comparing healing of the skin graft and the skin graft donor site using ST266 plus a burn dressing versus placebo and a burn dressing.
The purpose of this study is to learn the following: whether long-term treatment (6 months) with fenofibrate will decrease burn related sugar and fat increased in the blood and help prevent muscle loss and improve wound healing.
This pilot Phase I/II clinical study will be conducted at up to three clinical sites. This is an open-label, randomized, comparative study with a maximum of fifteen (15) patients, each with skin defects. The patients are intended to undergo sequential surgical procedures involving surgical skin debridement and temporary allogeneic (cadaver skin) grafting at various separate or contiguous wound sites. Patients will be randomized within each wound site to one of two test products: cadaver skin or StrataGraft™ skin tissue.
Platelet Derived Growth Factor (PDGF) is a potent mitogen for a wide range of cell types including fibroblasts, smooth muscle and connective tissue. Recombinant human platelet derived growth factor (R-Pdf/Gbb) has biologic activity similar to endogenous platelet derived growth factor (PDGF). Biologic activity of PDGF includes encouraging chemotaxis and proliferation of cells responsible for wound repair and it augments production of granulation tissue. The growth factor rhPDGF is found effective in patients having diabetic foot ulcer grade III and IV. The nature of wounds in the third degree burns is similar so far as healing process is concerned. The purpose of this study is to test the hypotheses that the application of R-Pdf/Gbb 0.01% gel on the third degree thermal and electrical burns will heal these wounds within 3 months and there will be improvement in general condition of the patients without any complications.