Cerebral ischaemia studied by nuclear magnetic resonance spectroscopy.

S R Williams, H A Crockard, D G Gadian
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Abstract

In this review, we assess the role of nuclear magnetic resonance (NMR) spectroscopy as a noninvasive method of studying metabolism in cerebral ischaemia. Phosphorus-31 NMR provides a monitor of intracellular pH and energy metabolites, including ATP, phosphocreatine, and inorganic phosphate, while other nuclei, including 1H, 13C, 19F, and 23Na can give additional information about several aspects of brain metabolism and physiology. For example, 1H NMR not only provides excellent images, but may also be used to monitor a range of metabolites, including lactate and several amino acids. Comparisons are made with the large body of information that is available from more traditional methods of studying metabolism. Emphasis is placed on the correlation of NMR data with parallel measurements of regional blood flow, tissue oxygenation, oedema, electrical activity, and tissue damage. Technical aspects of NMR are discussed where appropriate; for example, in relation to the range of metabolites that are accessible to study, the spatial resolution that is available for studies of focal lesions, problems arising from tissue heterogeneity, and quantification of metabolite levels. Applications in animal models and in humans are discussed; these primarily involve the 31P nucleus, but for the future it appears that 1H NMR studies offer particular promise.

核磁共振波谱法研究脑缺血。
在这篇综述中,我们评估了核磁共振(NMR)光谱作为研究脑缺血代谢的无创方法的作用。磷-31核磁共振提供细胞内pH和能量代谢物的监测,包括ATP、磷酸肌酸和无机磷酸盐,而其他核,包括1H、13C、19F和23Na,可以提供关于脑代谢和生理的几个方面的额外信息。例如,1H NMR不仅可以提供出色的图像,还可以用于监测一系列代谢物,包括乳酸和几种氨基酸。与从更传统的研究代谢方法中获得的大量信息进行了比较。重点放在核磁共振数据与平行测量区域血流、组织氧合、水肿、电活动和组织损伤的相关性上。在适当的地方讨论核磁共振的技术方面;例如,关于可研究代谢物的范围,可用于局灶性病变研究的空间分辨率,组织异质性引起的问题,以及代谢物水平的量化。讨论了在动物模型和人类中的应用;这些主要涉及31P核,但对于未来,似乎1H NMR研究提供了特别的希望。
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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