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休息与运动状态下大脑中动脉动脉瘤的血液动力学比较:一项计算研究。

Rest versus exercise hemodynamics for middle cerebral artery aneurysms: a computational study.

机构信息

Department of Engineering Science, Institute of Biomedical Engineering, University of Oxford, Oxford, UK.

出版信息

AJNR Am J Neuroradiol. 2010 Feb;31(2):317-23. doi: 10.3174/ajnr.A1797. Epub 2009 Dec 3.

DOI:10.3174/ajnr.A1797
PMID:19959776
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7964156/
Abstract

BACKGROUND AND PURPOSE

Exercise is an accepted method of improving cardiovascular health; however, the impact of increases in blood flow and heart rate on a cerebral aneurysms is unknown. This study was performed to simulate the changes in hemodynamic conditions within an intracranial aneurysm when a patient exercises.

MATERIALS AND METHODS

Rotational 3D digital subtraction angiograms were used to reconstruct patient-specific geometries of 3 aneurysms located at the bifurcation of the middle cerebral artery. CFD was used to solve for transient flow fields during simulated rest and exercise conditions. Inlet conditions were set by using published transcranial Doppler sonography data for the middle cerebral artery. Velocity fields were analyzed and postprocessed to provide physiologically relevant metrics.

RESULTS

Overall flow patterns were not significantly altered during exercise. Across subjects, during the exercise simulation, time-averaged WSS increased by a mean of 20% (range, 4%-34%), the RRT of a particle in the near-wall flow decreased by a mean of 28% (range, 13%-40%), and time-averaged pressure on the aneurysm wall did not change significantly. In 2 of the aneurysms, there was a 3-fold order-of-magnitude spatial difference in RRT between the aneurysm and surrounding vasculature.

CONCLUSIONS

WSS did not increase significantly during simulated moderate aerobic exercise. While the reduction in RRT during exercise was small in comparison with spatial differences, there may be potential benefits associated with decreased RRT (ie, improved replenishment of nutrients to cells within the aneurysmal tissue).

摘要

背景与目的

运动是改善心血管健康的公认方法;然而,血流和心率增加对颅内动脉瘤的影响尚不清楚。本研究旨在模拟患者运动时颅内动脉瘤内血流动力学条件的变化。

材料与方法

采用旋转式 3D 数字减影血管造影术重建 3 个位于大脑中动脉分叉处的动脉瘤的患者特定几何形状。使用 CFD 求解模拟休息和运动条件下的瞬态流场。通过使用发表的大脑中动脉经颅多普勒超声数据来设置入口条件。分析速度场并进行后处理以提供生理相关的指标。

结果

运动过程中整体流型没有明显改变。在所有受试者中,在运动模拟期间,时均壁面剪切应力(WSS)平均增加 20%(范围为 4%至 34%),近壁流中粒子的相对回流时间(RRT)平均减少 28%(范围为 13%至 40%),而动脉瘤壁上的时均压力没有明显变化。在 2 个动脉瘤中,动脉瘤和周围血管之间的 RRT 存在 3 个数量级的空间差异。

结论

在模拟的中度有氧运动中,WSS 没有显著增加。虽然与空间差异相比,运动期间 RRT 的减少幅度较小,但减少 RRT 可能与潜在的益处相关(即,改善动脉瘤组织内细胞的营养物质供应)。

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