Suleyman R. Cayli, Ayhan Kocak, Ugur Yilmaz, Ayhan Tekiner, Mine Erbil, Cetin Ozturk, Kadir Batcioglu, Saim Yologlu
March 2003, Volume 13, Issue 8, pp 724 - 732 Original Article Read Full Article 10.1007/s00586-003-0550-y
First Online: 28 March 2003
Spinal cord injury (SCI) results in the loss of function below the lesion. Secondary injury following the primary impact includes a number of biochemical and cellular alterations leading to tissue necrosis and cell death. Methylprednisolone (MP), by reducing edema and protecting the cell membrane against peroxidation, is the only pharmacological agent with a proven clinically beneficial effect on SCI. Melatonin, known as a free radical scavenger, has been shown to have an effect on lipid peroxidation following experimental SCI. The purpose of this study was to examine the effect of MP and melatonin on neurological, ultrastructural, and electrophysiological recovery. Female albino rats weighing 200–250 g were randomized into five groups of 18 rats each and six rats for the control group. Weight-drop trauma was performed for each group and a 30-mg/kg single dose of MP for rats in group 1, a 10-mg/kg single dose of melatonin for rats in group 2, and MP and melatonin in the same doses for rats in group 3 were administered immediately after trauma. The rats in group 4 were the vehicle group (treated with ethanol) and group 5 was the trauma group. The motor and somatosensory evoked potentials were recorded at the 4th hour, the 24th hour, and on the 10th day of the study for six rats in each group. Posttraumatic neurological recovery was recorded for 10 days using “motor function score” and inclined plane test. After electrophysiological study the rats were terminated for an analysis of lipid peroxidation level of the injured site of the spinal cord. Electron microscopic studies were performed to determine the effects of melatonin, MP, and the combined treatment with MP and melatonin on axons, neurons, myelin, nucleus, and intracytoplasmic edema. The groups treated with MP, melatonin, and a combination of both had significantly enhanced electrophysiological, biochemical, and neurological recovery and also showed better ultrastructural findings than the trauma and vehicle groups. Although combined treatment was significantly more effective on lipid peroxidation than melatonin or MP treatments alone, at the 10th day, neurobehavioral, electrophysiological, and ultrastructural recovery were at the same level. In conclusion, MP, melatonin, and MP and melatonin combined treatment modalities improved functional recovery at the same level. Future studies involving different doses of melatonin and different dose combinations with MP could promise better results since each drug has a different antioxidative mechanism of action.
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