脑损伤中的氧自由基。

H A Kontos, J T Povlishock
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引用次数: 237

摘要

麻醉猫的实验性液体冲击脑损伤导致血管损伤,其特征是持续的小动脉扩张,对血管收缩剂和血管舒张剂干预的异常反应,局灶性内皮病变和血管壁耗氧量减少。这些异常是最小化或完全抑制预处理环加氧酶抑制剂或氧自由基清除剂。因此,它们被认为是在通过环加氧酶加速花生四烯酸代谢过程中产生的氧自由基。在这种类型的脑损伤之后,大脑中磷脂酶c的活性增加,前列腺素的脑浓度短暂增加。超氧阴离子自由基在脑损伤后立即和1小时后在脑细胞外间隙被检测到,作为硝基蓝四氮唑还原的超氧化物歧化酶抑制部分。损伤后30分钟,超氧化物歧化酶和过氧化氢酶可逆转脑小动脉持续扩张和异常反应性。这些结果表明,使用氧自由基清除剂治疗可能有效地抑制或逆转脑损伤的某些影响,即使治疗药物的干预是在损伤发生后的一段时间内进行的。
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Oxygen radicals in brain injury.

Experimental fluid percussion brain injury in anesthetized cats causes vascular injury characterized by sustained arteriolar dilation, abnormal reactivity to vasoconstrictor and vasodilator interventions, focal endothelial lesions, and reduction of the oxygen consumption of the vessel wall. These abnormalities are minimized or completely inhibited by pretreatment with cyclooxygenase inhibitors or with oxygen radical scavengers. They were therefore ascribed to oxygen radicals generated in the course of accelerated arachidonate metabolism via cyclooxygenase. Following this type of brain injury, there is an increase in the activity of phospholipase c in the brain and a transient increase in brain concentration of prostaglandins. Superoxide anion radical was detected in the extracellular space of the brain both immediately following brain injury as well as one hour afterwards as the superoxide dismutase inhibitable portion of nitroblue tetrazolium reduction. The sustained dilation and abnormal reactivity of cerebral arterioles following brain injury were also reversed by superoxide dismutase and catalase applied on the brain surface 30 minutes after injury. These results suggest that treatment with oxygen radical scavengers might be effective in inhibiting or reversing some of the effects of brain injury, even though the intervention with the therapeutic agents occurs sometime after the injury has taken place.

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