PET和SPECT在缺血性脑血管病评估中的作用。

W D Heiss, I Podreka
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引用次数: 0

摘要

功能性神经成像技术,如正电子和单光子发射计算机断层扫描(PET和SPECT),有助于我们了解缺血性中风的病理生理变化。测定脑血流量(CBF)、脑血容量(CBV)和脑氧代谢率(cmoro2)可以区分闭塞性血管疾病的各种代偿机制,其中CBF/CBV比值的变化表明灌注储备和氧提取分数(OEF)的增加,这是一种代谢储备,在血流逐渐减少时防止缺血性组织损伤。在急性缺血早期,CBF和cmor2低于一定阈值(分别约为12ml / 100g /min和/或65mumol / 100g /min)表明组织损伤是不可逆的,而cmor2在血流减少的情况下保存导致OEF增加(“悲惨灌注”)表明在发作后48小时内组织仍有活力,但在接下来的一段时间内,大多数情况下组织变成坏死。在少数情况下,这些组织可以存活,这表明有可能进行有效的治疗。短暂性脑缺血发作是由较不严重的局部血流紊乱引起的,由此引起的代谢变化并不明显。在这些情况下,阻塞性血管改变对血流动力学储备的影响可以通过应用CO2或乙酰唑胺进行功能测试来评估。虽然早期缺血时的区域脑葡萄糖代谢率(rCMRglu)通常不与血流或cmor2相结合,甚至可能升高(非氧化性糖酵解导致组织乳酸中毒),但这一变量是组织功能永久性损伤的最佳指标。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of PET and SPECT in the assessment of ischemic cerebrovascular disease.

Functional neuroimaging techniques such as positron and single-photon emission computed tomography (PET and SPECT) have contributed to our knowledge of pathophysiological changes in ischemic stroke. Determinations of cerebral blood flow (CBF), cerebral blood volume (CBV), and cerebral metabolic rate of oxygen (CMRO2) permit the discrimination of various compensatory mechanisms in occlusive vascular disease, where changes in the CBF/CBV ratio indicate a perfusional reserve and increases in the oxygen extraction fraction (OEF), a metabolic reserve, that prevent ischemic tissue damage during graded flow decreases. Early in the course of acute ischemia, CBF and CMRO2 below a certain threshold (approximately 12 ml/100 g/min and/or 65 mumol/100 g/min, respectively) indicate irreversible tissue damage, while preservation of CMRO2 with decreased flow resulting in increased OEF ("misery perfusion") suggests still viable tissue up to 48 h after the attack, which, however, turns into necrosis in most instances during the following period. In a few instances such tissues can survive, suggesting a potential for effective therapy. Transient ischemic attacks are caused by less severe regional flow disturbances and the consequent metabolic changes are not so significant. In these cases the impact of obstructive vascular changes on hemodynamic reserve can be evaluated by functional tests applying CO2 or acetazolamide. While the regional cerebral metabolic rate of glucose (rCMRglu) in early ischemia is often not coupled to flow or CMRO2 and might even be increased (nonoxidative glycolysis with consequent tissue lactacidosis), this variable is the best indicator of permanent impairment of tissue function. (ABSTRACT TRUNCATED AT 250 WORDS)

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