长期冠状动脉闭塞后再灌注微血管缺血:局部过饱和氧输送的意义和治疗

J. Spears
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引用次数: 6

摘要

长期冠状动脉闭塞后,在整个再灌注心肌中通常发现非均匀分散的低红细胞流量局灶性区域。实验研究还表明,在再灌注(RMI)期间存在广泛的局部斑块状微血管缺血区域。然而,由于缺乏实用的临床检测方法,RMI对组织活力和功能的潜在贡献很少受到关注。本文综述了RMI的解剖学/功能基础,以及RMI在再灌注心肌中存在的证据。本文讨论了与血管内皮细胞和血液成分对缺氧和低剪切应力影响的阻塞性反应相关的微循环研究进展,并提出了这种反应和功能性毛细血管密度逐渐丧失导致RMI加剧的潜在循环。在红细胞血流受损的毛细血管中,由于氧在血浆中的溶解度低,代偿性氧输送增加仅在高分压下有效。正如本文所讨论的,在高压水平下,血浆中氧气循环的衰减很可能是实验中注意到的组织水平灌注改善的原因。观察到的冠状动脉内过饱和氧(SSO2)输送的临床益处,包括梗死面积的缩小,可归因于RMI的衰减和微血管血流的改善。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reperfusion Microvascular Ischemia After Prolonged Coronary Occlusion: Implications And Treatment With Local Supersaturated Oxygen Delivery
Abstract Following a prolonged coronary arterial occlusion, heterogeneously scattered, focal regions of low erythrocyte flow are commonly found throughout the reperfused myocardium. Experimental studies have also demonstrated the presence of widespread, focally patchy regions of microvascular ischemia during reperfusion (RMI). However, the potential contribution of RMI to tissue viability and function has received little attention in the absence of practical clinical methods for its detection. In this review, the anatomic/functional basis of RMI is summarized, along with the evidence for its presence in reperfused myocardium. Advances in microcirculation research related to obstructive responses of vascular endothelial cells and blood elements to the effects of hypoxia and low shear stress are discussed, and a potential cycle of intensification of RMI from such responses and progressive loss of functional capillary density is presented. In capillaries with impaired erythrocyte flow, compensatory increases in the delivery of oxygen, because of its low solubility in plasma, are effective only at high partial pressures. As discussed herein, attenuation of the cycle with oxygen at hyperbaric levels in plasma is, very likely, responsible for improved tissue level perfusion noted experimentally. Observed clinical benefits from intracoronary SuperSaturated oxygen (SSO2) delivery, including infarct size reduction, can be attributed to attenuation of RMI with improvement in microvascular blood flow.
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