Burns : journal of the International Society for Burn Injuries
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Despite current treatment modalities, frostbite remains an injury with a poor prognosis which may cause functional morbidities. Several experimental and clinical studies have demonstrated that stromal vascular fraction is an autologous mixture, which can improve wound healing and vasculogenesis. The aim of this study was to show the beneficial effects of stromal vascular fraction on experimental frostbite healing. ⋯ The study results demonstrated that SVF increases frostbite wound healing by increasing tissue perfusion rate, neovascularization and re-epithelialization, and modulating acute inflammation and fibrosis.
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Treatment for pediatric burns includes fluid resuscitation with formulas estimating fluid requirements based on weight and/or body surface area (BSA) with percent total body surface area burn (%TBSA burn). This study evaluates the risk of complications using weight-based resuscitation in children following burn injuries and compares fluid estimates with those that incorporate BSA. A retrospective review was conducted on 110 children admitted to an ABA-verified urban pediatric burn center over 12 years. ⋯ Total fluid administered was higher as percentile increased; however, overweight children received more fluid than the obese (p = 0.023). The Galveston formula underpredicted fluid given over the first 24 h post-injury (p = 0.042); the Parkland and Cincinnati formula predictions did not significantly differ from fluids given. Further research is needed to determine the value of weight-based vs BSA-based or incorporated formulas in reducing risk of complications.
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Multiple organ failure (MOF) is the leading cause of death in patients with burns requiring ICU admission. Quantifying the evolution of MOF, with the SOFA score, over the first few days after a severe burn may provide useful prognostic information. This retrospective cohort study aimed at evaluating the association between the evolution of the SOFA score between day 0 and day 3 and in-hospital mortality. ⋯ In addition, SOFA variations allowed the identification of subgroups of patients with either very low or very high mortality. In patients with severe burns, SOFA score evolution between day 0 and day 3 may be useful for individualized medical and ethical decisions. Further multicenter studies are required to corroborate the present results.
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In recent years, it has become clear that the burn eschar in deep burns can be selectively removed using the enzymatically debriding agent NexoBrid® (EDNX). In deep partial-thickness burns, such selective debridement preserves all non-injured dermis, which is sometimes sufficient for spontaneous re-epithelization. Nevertheless, it can be extremely challenging to determine exactly what and when to operate after an EDNX procedure. In this manuscript, we sought to investigate the clinical aspect of the enzymatically debrided wound bed of laser Doppler imaging (LDI)-confirmed deep dermal and full-thickness burns after NexoBrid® application. This to evaluate the residual wound healing capacity and implement specific indications for surgical therapy after enzymatic debridement. ⋯ To the best of our knowledge, this study is the first to address the clinical wound bed evaluation of LDI-confirmed deep burns after NexoBrid® application. Based on our results, it is recommended to evaluate the wound bed twice: immediately after removing NexoBrid® to assess the viability of the wound bed and after the WTD period to reach a more complete decision. During these evaluations, wound bed characteristics such as incomplete debridement, visible and/or translucent fat lobules, visible and/or coagulated blood vessels and a dermal step-off in the wound bed combined with a higher range (4-5) in the newly developed wound bed color code should lead to an early and reliable decision for skin grafting. For burn centers using LDI, mean flux values below 119.5PU - in addition to the above-mentioned wound bed evaluation - are a clear indicator for surgical therapy.
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To overcome limited donor-site availability in patients with extensive burns, split-thickness skin grafts (STSGs) are sometimes minced into micrografts (MGs) to improve the expansion ratio of the grafts, but this may reduce wound healing. We aimed to produce a novel hydrogel as an overlay of minced STSGs to improve wound healing. The new hydrogel was produced using recombinant human collagen type III powder as a raw material. ⋯ Further, using the hydrogel as an overlay accelerated wound closure and angiogenesis, increased dermal tissue and basement membrane formation, enhanced collagen synthesis and wound healing-related growth factor expression, while reducing scar formation compared to the Vaseline gauze group. In conclusion, the novel, low-cost recombinant human collagen hydrogel can accelerate wound closure and improve wound healing when used as an overlay of minced STSGs. The new hydrogel could become a new treatment option for traumatic skin wounds caused by burns or injuries.