Burns : journal of the International Society for Burn Injuries
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Burn injuries are a major cause of morbidity and mortality worldwide. Despite advances in therapeutic strategies for the management of patients with severe burns, the sequelae are pathophysiologically profound, up to the systemic and metabolic levels. Management of patients with a severe burn injury is a long-term, complex process, with treatment dependent on the degree and location of the burn and total body surface area (TBSA) affected. In adverse conditions with limited resources, efficient triage, stabilisation, and rapid transfer to a specialised intensive care burn centre is necessary to provide optimal outcomes. This initial lag time and the form of primary treatment initiated, from injury to specialist care, is crucial for the burn patient. This study aims to investigate the efficacy of a novel visco-elastic burn dressing with a proprietary bio-stimulatory marine mineral complex (MXC) as a primary care treatment to initiate a healthy healing process prior to specialist care. ⋯ Utilisation of this EBD + MXC as a primary treatment is an effective and easily applicable treatment in cases of burn injury, proving both a cooling and hydrating environment for the wound. It regulates inflammation and promotes healing in preparation for specialised secondary burn wound management. Moreover, it promotes a healthy remodelling phenotype that may potentially mitigate scarring. Based on our findings, this EBD + MXC is ideal for use in all pre-hospital, pre-surgical and resource limited settings.
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The objective of this study is to review our experience in the implementation of an innovative Telemedicine Platform (the Teleburns Project) for the acute care of burned patients. ⋯ The use of Telemedicine for burn assessment can improve the accuracy of burn patients triage, resulting in enhanced resource utilization, time and cost saving for the health system and increased quality of care.
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Comparative Study
Comparison of the efficacy of silver-based antimicrobial burn dressings in a porcine model of burn wounds.
A variety of silver-based antimicrobial dressings are available on the market and are commonly used to prevent infection. Such prophylaxis is particularly important in treating burns, yet there is a paucity of evidence confirming the efficacy of commercially available dressingsin vivo. We describe here an in vivo porcine model of burns, which we use to test the antimicrobial efficacy of three common wound dressings and a control. ⋯ Nanocrystalline silver-based wound dressings generally outperformed silver-plated nylon and high-oxidation silver salts in thisin vivo model of burn wounds. Relative to prophylactic use, it may be advisable to change the dressings more frequently when treating an infected wound.