Peroxidative damage to cell membranes following cerebral ischemia. A cause of ischemic brain injury?

Neurochemical pathology Pub Date : 1988-07-01 DOI:10.1007/BF03160361

M D Ginsberg, B D Watson, R Busto, S Yoshida, R Prado, H Nakayama, M Ikeda, W D Dietrich, M Y Globus

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引用次数: 45

Abstract

Definitive evidence of oxygen radical-mediated lipid peroxidation as a cause of tissue injury in the setting of brain ischemia has proven elusive. We review the experimental data from our own and other laboratories on this subject. Spectroscopic detection of the conjugated diene structure, the earliest structural alteration produced by fatty acid radicalization, is an inconstant and highly focal observation in the recirculated ischemic brain. Alterations of lipid-soluble antioxidants offer an indirect indication of possible free radical reactions. Other inferences of lipid peroxidation have derived from studies of selective disappearance of free fatty acids. Recent studies of tissue conjugated diene in two rat models of thrombotic infarction with acute reperfusion yielded inconsistent evidence for lipid peroxidation, and in rats subjected to 25 min of diffuse forebrain ischemia, no evidence of conjugated diene formation was observed during early recirculation. We conclude that evolving parenchymal injury in these settings is unlikely to derive from spectroscopically observable lipid autoxidation.

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脑缺血后细胞膜的过氧化损伤。缺血性脑损伤的原因?

氧自由基介导的脂质过氧化作为脑缺血组织损伤的原因的明确证据已被证明是难以捉摸的。我们回顾了我们自己和其他实验室在这个问题上的实验数据。共轭二烯结构的光谱检测是由脂肪酸自由基化引起的最早的结构变化，在再循环缺血脑中是一种不稳定的高度集中的观察。脂溶性抗氧化剂的变化提供了可能的自由基反应的间接指示。脂质过氧化的其他推论来自于游离脂肪酸选择性消失的研究。最近在两种急性再灌注血栓性梗死大鼠模型中组织共轭二烯的研究得出了不一致的脂质过氧化证据，并且在25分钟弥漫性前脑缺血的大鼠中，在早期再循环中没有观察到共轭二烯形成的证据。我们得出结论，在这些情况下，不断发展的实质损伤不太可能源于光谱可观察到的脂质自氧化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neurochemical pathology

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