The Effects of Cerebral Vasospasm on Cerebral Blood Flow and the Effects of Induced Hypertension: A Mathematical Modelling Study.

Q1 Medicine
Interventional Neurology Pub Date : 2020-01-01 Epub Date: 2019-04-02 DOI:10.1159/000496616
Pervinder Bhogal, Leonard Leong Yeo, Lucas O Müller, Pablo J Blanco
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引用次数: 6

Abstract

Background: Induced hypertension has been used to promote cerebral blood flow under vasospastic conditions although there is no randomised clinical trial to support its use. We sought to mathematically model the effects of vasospasm on the cerebral blood flow and the effects of induced hypertension.

Methods: The Anatomically Detailed Arterial Network (ADAN) model is employed as the anatomical substrate in which the cerebral blood flow is simulated as part of the simulation of the whole body arterial circulation. The pressure drop across the spastic vessel is modelled by inserting a specific constriction model within the corresponding vessel in the ADAN model. We altered the degree of vasospasm, the length of the vasospastic segment, the location of the vasospasm, the pressure (baseline mean arterial pressure [MAP] 90 mm Hg, hypertension MAP 120 mm Hg, hypotension), and the presence of collateral supply.

Results: Larger decreases in cerebral flow were seen for diffuse spasm and more severe vasospasm. The presence of collateral supply could maintain cerebral blood flow, but only if the vasospasm did not occur distal to the collateral. Induced hypertension caused an increase in blood flow in all scenarios, but did not normalise blood flow even in the presence of moderate vasospasm (30%). Hypertension in the presence of a complete circle of Willis had a marginally greater effect on the blood flow, but did not normalise flow.

Conclusion: Under vasospastic condition, cerebral blood flow varies considerably. Hypertension can raise the blood flow, but it is unable to restore cerebral blood flow to baseline.

脑血管痉挛对脑血流的影响和诱发高血压的影响:一个数学模型研究。
背景:诱导高血压已被用于促进血管痉挛条件下的脑血流量,尽管没有随机临床试验支持其使用。我们试图用数学模型来模拟血管痉挛对脑血流量的影响和诱导高血压的影响。方法:采用解剖细节动脉网络(Anatomically Detailed Arterial Network, ADAN)模型作为解剖基质,模拟脑血流作为全身动脉循环模拟的一部分。通过在ADAN模型中相应的血管内插入特定的收缩模型来模拟痉挛血管上的压降。我们改变了血管痉挛的程度、血管痉挛段的长度、血管痉挛的位置、血压(基线平均动脉压[MAP] 90 mm Hg,高血压MAP 120 mm Hg,低血压)和侧支供应的存在。结果:弥漫性痉挛和更严重的血管痉挛患者脑血流明显减少。侧枝供应的存在可以维持脑血流量,但前提是血管痉挛不发生在侧枝远端。在所有情况下,诱发性高血压引起血流量增加,但即使存在中度血管痉挛(30%),也不能使血流量正常化。存在完整威利斯循环的高血压对血流的影响略大,但不能使血流正常。结论:在血管痉挛状态下,脑血流量变化较大。高血压可使血流量升高,但不能使脑血流量恢复到基线。
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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Interventional Neurology
Interventional Neurology CLINICAL NEUROLOGY-
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