大脑中的毛细血管循环。

W Kuschinsky, O B Paulson
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引用次数: 0

摘要

不同脑结构的局部毛细血管密度与其局部血流量和代谢密切相关。毛细血管密度似乎根据局部功能需求而发展。单毛细血管灌注的研究表明,在任何时间点,脑内所有毛细血管都有血浆灌注。毛细管循环和毛细血管补充的理论是建立在实验人工制品的基础上的。有间接证据表明,在正常情况下灌注存在异质性,特别是红细胞流动。毛细管扩散能力取决于可用的毛细管表面积,而可用的毛细管表面积会随着毛细血管的增加而增加。在毛细血管灌注不均匀的情况下,毛细血管的扩散能力也可以通过灌注速率的均质化而增加(缓慢灌注的毛细血管变得更快灌注)。这可能给人一种毛细血管表面积“明显”增加的生理印象。建议使用术语“毛细血管循环”和“募集”时应结合更具体的解释,如“红细胞募集”和“先前未灌注的毛细血管募集”。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Capillary circulation in the brain.

A close relationship exists between the local capillary density in different brain structures and their local blood flow and metabolism. Capillary density appears to have developed depending on local functional demands. Investigation of single capillary perfusion has shown that all capillaries are perfused with plasma in the brain at any time point. Theories of capillary cycling and capillary recruitment have been based on experimental artifacts. Indirect evidence exists for a heterogeneity of perfusion under normal conditions, especially with respect to erythrocyte flow. The capillary diffusion capacity depends on, among other things, the available capillary surface area, which would increase with recruitment of capillaries. In the case of capillary perfusion heterogeneity, the capillary diffusion capacity may also be increased by homogenization of the perfusion rate (slowly perfused capillaries becoming faster perfused). This could give a physiological impression of an "apparent" increase in the capillary surface area. It is recommended that the terms "capillary cycling" and "recruitment" should be used in conjunction with more specific explanations, like "recruitment of erythrocytes" and "recruitment of previously nonperfused capillaries".

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