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大脑主要血管闭塞后 Willis 环中脑自动调节和侧支血流的双重作用

The Dual Role of Cerebral Autoregulation and Collateral Flow in the Circle of Willis After Major Vessel Occlusion.

作者信息

Kennedy McConnell Flora, Payne Stephen

出版信息

IEEE Trans Biomed Eng. 2017 Aug;64(8):1793-1802. doi: 10.1109/TBME.2016.2623710. Epub 2016 Nov 1.

Abstract

OBJECTIVE

Ischaemic stroke is a leading cause of death and disability. Autoregulation and collateral blood flow through the circle of Willis both play a role in preventing tissue infarction. To investigate the interaction of these mechanisms a one-dimensional steady-state model of the cerebral arterial network was created.

METHODS

Structural variants of the circle of Willis that present particular risk of stroke were recreated by using a network model coupled with: 1) a steady-state physiological model of cerebral autoregulation; and 2) one wherein the cerebral vascular bed was modeled as a passive resistance. Simulations were performed in various conditions of internal carotid and vertebral artery occlusion.

RESULTS

Collateral flow alone is unable to ensure adequate blood flow ([Formula: see text] normal flow) to the cerebral arteries in several common variants during internal carotid artery occlusion. However, compared to a passive model, cerebral autoregulation is better able to exploit available collateral flow and maintain flows within [Formula: see text] of baseline. This is true for nearly all configurations.

CONCLUSION

Hence, autoregulation is a crucial facilitator of collateral flow through the circle of Willis.

SIGNIFICANCE

Impairment of this response during ischemia will severely impact cerebral blood flows and tissue survival, and hence, autoregulation should be monitored in this situation.

摘要

目的

缺血性中风是导致死亡和残疾的主要原因。通过 Willis 环的自动调节和侧支血流在预防组织梗死中均发挥作用。为了研究这些机制之间的相互作用,创建了一个脑动脉网络的一维稳态模型。

方法

通过使用一个网络模型来重建具有特定中风风险的 Willis 环结构变异,该网络模型结合了:1)脑自动调节的稳态生理模型;2)将脑血管床建模为被动阻力的模型。在内颈动脉和椎动脉闭塞的各种情况下进行模拟。

结果

在颈内动脉闭塞期间,仅靠侧支血流无法确保几种常见变异情况下脑动脉有足够的血流([公式:见原文]正常血流)。然而,与被动模型相比,脑自动调节能够更好地利用可用的侧支血流,并将血流维持在基线的[公式:见原文]范围内。几乎所有配置都是如此。

结论

因此,自动调节是通过 Willis 环的侧支血流的关键促进因素。

意义

缺血期间这种反应的受损将严重影响脑血流和组织存活,因此,在这种情况下应监测自动调节。

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