12 Clinical Trials for Various Conditions
The primary objective of this study is to develop a high accuracy and automated system that can provide early assessment of burn injuries with at least 90% accuracy in absence of burn experts, using AI and FDA cleared harmonic ultrasound TDI data based on the analysis of mechanical and hemodynamic properties of the subcutaneous burned tissue. Data collected in this study will lead to the development of better diagnostic tools that could inform clinical burn practices by enabling doctors to determine burn depth and the need for surgery with greater speed and accuracy, resulting in better clinical outcomes.
According to the National Burn Repository 2007, the most common type of burn injury is a partial thickness burns. The current standard of care for partial thickness burns is two weeks of topical therapy and wound care. Burns that do not heal within two weeks undergo surgical excision and skin grafting.
The objective of this study is to make Dermacyte Liquid available on an expanded access basis to treat cutaneous ulcers and wounds refractory to initial treatment or that do not have adequate alternative treatments. Minimal data will be collected to evaluate the efficacy and safety of Dermacyte Liquid.
This multi-center prospective intervention study is designed to develop coenzyme Q10 (CoQ10) supplementation as a cost-effective adjunctive therapy for burn injury. The long-term goals of this project are to establish the beneficial effects of CoQ10 on multiple organ dysfunction and on the clinical and functional outcomes of burn victims.
This study will involve blood draws to test for specific cytokines. The study goal is to gain a better understanding of the role of inflammatory response in the development of specific complications in burn and TENS patients.
This is a prospective observational study to determine the role of colonization and identify the timing of development of drug resistance in multidrug resistant Gram-negative bacilli (MDR-GNB) causing infection among critically ill burn patients.
Predict the development of multiple organ failure in patients with trauma and severe burns.
The purpose of this study is to evaluate the change in signs of inflammation/local infection when Mepilex Border Ag is used in normal clinical practice when used on chronic ulcers (venous leg, diabetic foot and pressure ulcers) and partial thickness burns in need\* of topical antimicrobial treatment according to the physician.
The purpose of this study is to compare the rate of healing and the non-adherence of three types of dressings. The study will also compare rate of infection, scarring and perception of pain associated with treatment.
The purpose of this study is to help improve our understanding of the biology involved in the body's response to serious trauma or burn injury. The host response to trauma and burns is a collection of physiological and pathophysiological processes that depend critically upon the regulation of the human innate immune system, with particular emphasis on the inflammatory component of that system. No single research center or small group of centers has the capacity to delineate the integrated response of this complex biological system, which involves multiple molecular and genetic interactions that vary in time. Our proposal promotes the identification of important dynamic relationships that regulate the integration of this complex biological system, with the expectation that this understanding will ultimately impact the diagnosis, prognosis, and treatment of the hospitalized, severely injured patient.
The purpose of this project is to quantify normal and abnormal skin blood flow regionally in different areas of the body(face, extremities, over burns and wounds) at baseline and over time in response to treatment or environmental changes, such as temperature, light and pressure.
The purpose of this study is to help improve our understanding of the biology involved in the body's response to serious trauma or burn injury. The host response to trauma and burns is a collection of physiological and pathophysiological processes that depend critically upon the regulation of the human innate immune system, with particular emphasis on the inflammatory component of that system. No single research center or small group of centers has the capacity to delineate the integrated response of this complex biological system, which involves multiple molecular and genetic interactions that vary in time. Our proposal promotes the identification of important dynamic relationships that regulate the integration of this complex biological system, with the expectation that this understanding will ultimately impact the diagnosis, prognosis, and treatment of the hospitalized, severely injured patient.