依达拉奉:一种新型自由基清除剂对脑血管损伤的神经保护作用

Hiroshi Yoshida, Hidekatsu Yanai, Yoshihisa Namiki, Kayoko Fukatsu-Sasaki, Nobuyuki Furutani, Norio Tada
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引用次数: 335

摘要

再通和神经保护一直是急性缺血性脑卒中特异性治疗的主要目标。自由基在脑缺血损伤中起着至关重要的作用,自由基通过细胞膜不饱和脂肪酸的过氧化作用加重膜损伤,导致神经元死亡和脑水肿。自由基在脑卒中病理生理学中被认为是细胞损伤的关键因素。依达拉奉(3-甲基-1-苯基-2-吡唑啉-5- 1)是一种新型有效的自由基清除剂,已被临床用于减少缺血性中风后的神经元损伤。依达拉奉通过抑制内皮损伤和改善脑缺血时的神经元损伤发挥神经保护作用。依达拉奉提供了NOS的理想特征:增加eNOS(挽救缺血性卒中的有益NOS),降低nNOS和iNOS(有害NOS)。依达拉奉预处理可减少溶栓治疗引起的再灌注后脑水肿和出血事件。再灌注后大脑中超氧化物和一氧化氮的产生增加,再循环过程中氧自由基的激增与一氧化氮的增加导致过氧亚硝酸盐的形成,这是一种超强自由基。依达拉奉可以抑制氧化并增加eNOS表达引起的NO的产生,可能在再灌注时改善和保存脑血流量而不产生过氧亚硝酸盐。依达拉奉的临床经验表明,该药具有较宽的治疗时间窗。联合治疗(溶栓加依达拉奉)可能针对脑水肿,减少卒中死亡,并改善脑卒中患者神经功能障碍的恢复。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neuroprotective Effects of Edaravone: a Novel Free Radical Scavenger in Cerebrovascular Injury

Recanalization and neuroprotection have been mainly targeted for the specific treatment of acute ischemic stroke. Free radicals play a crucial role in brain ischemic injury by exacerbating membrane damage through peroxidation of unsaturated fatty acids of cell membrane, leading to neuronal death and brain edema. Free radicals have been implicated in stroke pathophysiology as pivotal contributors to cell injury. Edaravone (3-methyl-1-phenyl-2-pyrazolin-5-one) is a novel potent free radical scavenger that has been clinically used to reduce the neuronal damage following ischemic stroke. Edaravone exerts neuroprotective effects by inhibiting endothelial injury and by ameliorating neuronal damage in brain ischemia. Edaravone provides the desirable features of NOS: it increases eNOS (beneficial NOS for rescuing ischemic stroke) and decreases nNOS and iNOS (detrimental NOS). Post- reperfusion brain edema and hemorrhagic events induced by thrombolytic therapy may be reduced by edaravone pretreatment. Increased productions of superoxide and NO in the brain after reperfusion and a concomitant surge in oxygen free radicals with increased NO during recirculation lead to formation of peroxynitrite, a superpotent radical. Edaravone, which inhibits oxidation and enhances NO production derived from increased eNOS expression, may improve and conserve cerebral blood flow without peroxynitrite generation during reperfusion. Clinical experience with edaravone suggests that this drug has a wide therapeutic time window. The combination therapy (a thrombolytic plus edaravone) is likely to target brain edema, reduce stroke death and improve the recovery from neurological deficits in stoke patients.

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