View clinical trials related to Burns.
Filter by:The purpose of this investigation is to better understand the wound microbiome in burn wounds and the role it plays in outcomes and complications related to treatment.
This study is intended to provide information from subjects who currently have painful, chronically open wounds and assess the pain reduction capacity of KeraStat® Gel with Morphine. In gathering data from subjects who have baseline pain from their chronically open wounds, the investigators can then evaluate the capacity of KeraStat® Gel plus Morphine in reducing the subjects daily pain levels, pain associated with dressing changes, and pain medication consumption.
Registry intended to provide a data repository and reporting infrastructure for the surveillance of CytoSorb device use in real-world critical care settings, and to serve as an objective, comprehensive, and scientifically-based resource to measure and improve the quality of patient care
The adequacy of fluid resuscitation will be monitored in burn patients using microcirculation. Microcirculation camera will be placed on the base of the tongue and at different four quadrants. • Microcirculation parameters at baseline and after 8h , 16h and 24h of fluid resuscitation will be recorded. Fluid resuscitation with lactated ringer according to Parkland formula (4 ml/kg/%TBSA) 50% given during the first 8 hours, with the remainder given during the following 16 hours, will be initiated to maintain a urinary output of 0.5ml/kg/hr.Norepinephrine infusion will be started in case of circulatory failure at a rate of 0.02mic/kg/min to maintain MAP of 65-70mmHg.
This is a single site double blind randomized controlled trial of replacing Vitamin D for Vitamin D-deficient burn patients at a current recommended dose (400 IU daily) versus a higher dose (4000 IU daily). Capsules will be made in a compounding pharmacy and will look identical. Randomized controlled trial. People who meet the selection criteria will be randomized to either low or high dosage of Vitamin D. Treatment arm is high dose Vitamin D (4000 IU), and control is low dose Vitamin D (400 IU). Main outcome variables include PROMIS-29 measures of physical health, mental health and social health, the Veterans RAND 12 Item Health Survey (VR-12), and the 4-D Itch Scale. Secondary outcome variables include subject demographics, injury demographics and characteristics.
Treatment of patients with deep second degree burns of the skin with extracellular vesicles (EV) isolated from bone marrow derived mesenchymal stem cells.
The investigators propose a prospective randomized trial to study fresh frozen plasma (FFP) versus albumin to determine the optimal colloid in burn resuscitations. This work addresses both FY20 focus areas, prolonged field care (PFC) and en route care, along with mitigating secondary effects of acute intervention, such as prevention of over resuscitation. Future military conflicts anticipate more extensive burn and blast injuries, and delayed evacuation. Therefore, the direct comparison of colloids used in burn resuscitation is critical to advancing battlefield medicine. Specifically, this work will provide the foundation for the use of freeze-dried plasma (FDP) in burn care by medical responders in PFC and en route care scenarios. The investigators hypothesize that FFP administration, and later FDP, in burn resuscitation is as safe as albumin, and more efficacious, in both reducing the total volume of fluid required in acute burn resuscitation and correcting burn endotheliopathy.
Burn injuries can result in long term physical and mental sequelae, not only from the scarring but also the painful dressings. The standard of care today remains use of antibiotic topical dressings while awaiting demarcation of the burn depth, with surgical excision and grafting for deep partial thickness and full thickness areas. Demarcation can be appreciated on admission for full thickness burns but is often a prolonged process that can last weeks. The clinical evaluation of the depth of the burn is a complex decision that often is made more challenging by the presence of the proteinaceous pseudoeschar and the coagulated dermis itself. Surgical debridement is relatively 'coarse' and by its very nature requires removal of a thin layer of viable tissue to reach the level that is vascularized enough to support a skin graft. There has been growing interest in the use of adjuncts to reduce the amount tissue debrided and potentially reduce the need for surgery itself. Operatively, there have been some reports that use of hydro-dissection devices (Versajet™) may allow a more controlled debridement, resulting in less viable tissue being sacrificed. There is also a growing experience with enzymatic debridement, especially with Bromolein, derived from Pineapple (NexoBrid®). Neither of these have been shown to definitively improve care in randomized controlled trials, (RCTs) and there is suggestion that in some settings may actually cause harm.
The purpose of this study is to examine effects of laser therapy on blood flow and sweating responses in burn-injured skin.
Burn injuries can result in long term physical and mental sequelae, not only from the scarring but also the painful dressings. The standard of care today remains use of antibiotic topical dressings while awaiting demarcation of the burn depth, with surgical excision and grafting for deep partial thickness and full thickness areas. Demarcation can be appreciated on admission for full thickness burns but is often a prolonged process that can last weeks. The clinical evaluation of the depth of the burn is a complex decision that often is made more challenging by the presence of the proteinaceous pseudoeschar and the coagulated dermis itself. Surgical debridement is relatively 'coarse' and by its very nature requires removal of a thin layer of viable tissue to reach the level that is vascularized enough to support a skin graft. There has been growing interest in the use of adjuncts to reduce the amount tissue debrided and potentially reduce the need for surgery itself. Operatively, there have been some reports that use of hydro-dissection devices (Versajet™) may allow a more controlled debridement, resulting in less viable tissue being sacrificed. There is also a growing experience with enzymatic debridement, especially with Bromolein, derived from Pineapple (NexoBrid®). Neither of these have been shown to definitively improve care in randomized controlled trials, (RCTs) and there is suggestion that in some settings may actually cause harm.