建立脑血管反应模型评估大脑中动脉闭塞后侧支循环的影响。

Modeling cerebrovascular responses to assess the impact of the collateral circulation following middle cerebral artery occlusion.

机构信息

Department of Mathematical Sciences, Indiana University-Purdue University Indianapolis, Indianapolis, Indiana, USA.

McGowan Institute for Regenerative Medicine, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania, USA.

出版信息

Microcirculation. 2024 Apr;31(3):e12849. doi: 10.1111/micc.12849. Epub 2024 Feb 14.

DOI:10.1111/micc.12849

PMID:38354046

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11014771/

Abstract

OBJECTIVE

An improved understanding of the role of the leptomeningeal collateral circulation in blood flow compensation following middle cerebral artery (MCA) occlusion can contribute to more effective treatment development for ischemic stroke. The present study introduces a model of the cerebral circulation to predict cerebral blood flow and tissue oxygenation following MCA occlusion.

METHODS

The model incorporates flow regulation mechanisms based on changes in pressure, shear stress, and metabolic demand. Oxygen saturation in cerebral vessels and tissue is calculated using a Krogh cylinder model. The model is used to assess the effects of changes in oxygen demand and arterial pressure on cerebral blood flow and oxygenation after MCA occlusion.

RESULTS

An increase from five to 11 leptomeningeal collateral vessels was shown to increase the oxygen saturation in the region distal to the occlusion by nearly 100%. Post-occlusion, the model also predicted a loss of autoregulation and a decrease in flow to the ischemic territory as oxygen demand was increased; these results were consistent with data from experiments that induced cerebral ischemia.

CONCLUSIONS

This study highlights the importance of leptomeningeal collaterals following MCA occlusion and reinforces the idea that lower oxygen demand and higher arterial pressure improve conditions of flow and oxygenation.

摘要

目的

深入了解软脑膜侧支循环在大脑中动脉（MCA）闭塞后血流代偿中的作用，有助于开发更有效的缺血性脑卒中治疗方法。本研究引入了一种脑循环模型，用于预测 MCA 闭塞后脑血流和组织氧合的变化。

方法

该模型基于压力、切应力和代谢需求的变化来调节血流。利用 Krogh 圆柱模型计算脑血管和组织中的氧饱和度。该模型用于评估氧需求和动脉压变化对 MCA 闭塞后脑血流和氧合的影响。

结果

与增加 5 个至 11 个软脑膜侧支血管相比，增加近 100%的氧饱和度可以增加闭塞远端区域的氧饱和度。闭塞后，模型还预测了氧需求增加时自动调节的丧失和缺血区血流的减少；这些结果与诱导脑缺血的实验数据一致。

结论

本研究强调了 MCA 闭塞后软脑膜侧支的重要性，并进一步证实了低氧需求和高动脉压可改善血流和氧合条件的观点。

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