Melatonin as Pharmacologic Support in Burn Patients: A Proposed Solution to Thermal Injury–Related Lymphocytopenia and Oxidative Damage
Maria-Dolores Maldonado, Francisco Murillo-Cabezas, Juan-Ramón Calvo, Patricia-Judith Lardone, Dun-Xian Tan, Juan-Miguel Guerrero, Russell J. Reiter
Crit Care Med 2007 Vol. 35, No. 4
Objective: to review the data that support the clinical use of melatonin in the treatment of burn patients, with special emphasis on the stimulation of the oxidative defense system, the immune system, circadian rhythm of sleep/wakefulness and the reduction in the toxicity of therapeutic agents used in the treatment of burn victims.
Data Source: a MEDLINE/PubMed search from 1975 to July 2006 was conducted.
Study Selection: the screening of the literature was examined using the key words: burn patients, lymphocytopenia, skin oxidative stress, antioxidant, melatonin, and free radicals.
Data Extraction and Synthesis: thermal injury often causes damage to multiple organs remote from the original burn wound and may lead to multiple organ failure. Animal models and burn patients exhibit elevated free radical generation that may be causative in the local wound response and in the development of burn shock and distant organ injury. The suppression of nonspecific resistance and the disturbance in the adaptive immune system makes burn patients vulnerable to infections. Moreover, there is loss of sleep and the toxicity produced by drugs habitually used in burn patients. Melatonin is a powerful antioxidant and is a potent protective agent against damage after experimental thermal injury. Some actions of melatonin as a potential supportive pharmacologic agent in burn patients include its: role as a scavenger of both oxygen and nitrogen-based reactants, stimulation of the activities of a variety of antioxidative enzymes, reduction in proinflammatory cytokines, inhibition of adhesion molecules, chronobiotic effects and reduction in the toxicity of the drugs used in protocols to treat thermal injury patients.
Conclusions: these combined actions of melatonin, along with its low toxicity and its ability to penetrate all morphophysiologic membranes, could make it a ubiquitously acting and highly beneficial molecule in burn patients.
A new frontier in critical care: saving the injuried brain.
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