Burns : journal of the International Society for Burn Injuries
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We studied the effect of melatonin treatment on gastric mucosal damage induced by experimental burns and its possible relation to changes in gastric lipid peroxidation status. Melatonin was intraperitoneally applied immediately after third-degree burns over 30% of total body skin surface area of rats. Malondialdehyde (MDA), uric acid (UA) and sulphydril (SH) levels were determined in gastric mucosa and blood plasma and used as biomarkers of the oxidative stress. ⋯ Melatonin (10 mg per kg body weight) protected gastric mucosa from oxidative damage by suppressing lipid peroxidation and activating the antioxidant defence. It may be hypothesised that melatonin restores the redox balance in the gastric mucosa and protects it from burn-induced oxidative injury. Melatonin has no significant influence on the concentrations of plasma MDA and antioxidants after burn; therefore, it should largely be considered as a limiting factor for tissue-damage.
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Pressure monitoring is crucial for effective pressure therapy. Precise and reliable interface pressure measurement system, however, remains unavailable in current practice. ⋯ The commercially available pressure measurement system was found to be a reliable tool for measurement of low interface pressure under static condition.
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Burn combined with inhalation injury is a major challenge and requires further study. Using a small-animal model, excretion of IL-6 was investigated during the first 6h after exposure of rats to wood/polyvinyl chloride smoke, with and without concomitant skin burn. ⋯ These levels of IL-6 were reduced when associated with either inhalation injury or burn, but were increased when the traumas were combined. Thus, during the first 6h of mechanical respiration the presence of burn or of inhalation injury seems to decrease IL-6 excretion, but a combination of these traumas reverses this effect.