Local cerebral blood flow by xenon-enhanced CT: current status, potential improvements, and future directions.

Cerebrovascular and brain metabolism reviews Pub Date : 1989-01-01

D Gur, H Yonas, W F Good

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Abstract

A noninvasive technique for measuring local cerebral blood flow (CBF) by xenon-enhanced x-ray transmission computed tomography (CT) was developed and reported on extensively in recent years. In this method, nonradioactive xenon gas in inhaled, and the temporal changes in radiographic enhancement produced by the inhalation are measured by sequential computed tomography. Time-dependent xenon concentration within various tissue segments in the brain is used to derive both the local partition coefficient (lambda) and CBF in each tissue volume (voxel) of the CT image. A comprehensive assessment of this method reveals that although it provides functional mapping of blood flow with excellent anatomic specificity and has several other significant advantages, there are distinct and important limitations. The assumptions underlying this methodology are examined and the advantages as well as the problems associated with applications of this technique are reviewed. Laboratory and clinical observations that have been made using this technique in recent years are summarized, and potential improvements as well as possible future directions are discussed.

本刊更多论文

氙气增强CT局部脑血流:现状，潜在改进和未来方向。

近年来，利用氙气增强x射线透射计算机断层扫描(CT)无创测量局部脑血流量(CBF)的技术得到了广泛的报道。在这种方法中，吸入的非放射性氙气和吸入产生的放射增强的时间变化是通过顺序计算机断层扫描来测量的。利用脑内不同组织段内随时间变化的氙浓度，得出CT图像中每个组织体积(体素)的局部分配系数(lambda)和CBF。对该方法的综合评估表明，尽管它提供了具有优异解剖特异性的血流量功能映射，并且具有其他几个显着优势，但存在明显且重要的局限性。研究了这种方法的基本假设，并审查了与该技术应用相关的优点和问题。总结了近年来使用该技术的实验室和临床观察，并讨论了潜在的改进以及可能的未来方向。

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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Cerebrovascular and brain metabolism reviews

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