二维理想人类颈动脉模型中与血压相关的动脉粥样硬化进展的计算模拟

E. Alagbe, T. E. Amoo, A. O. Ayeni, Oluwakayode S. Oyedele, Vershima D. Ashiekaa
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引用次数: 0

摘要

心血管疾病是一种众所周知的健康威胁,与年龄无关。了解该疾病的发生和发展过程有助于对该疾病进行正确的诊断和管理。这项工作的目的是模拟血压升高对斑块发生和发展的影响,随着时间的推移,涉及壁剪切应力、WSS和斑块壁应力以及PWS。与动脉血流相关的血流速度、血压和动脉壁状况等条件,以及与这些变量和条件相关的患者特异性特征,都被插入到COMSOL多物理场软件的修改模型中。将该动脉建模为理想的二维颈动脉模型。结果表明,随血压变化的WSS分布在斑块颈部最高,1500 Pa时靠近斑块根部的WSS值最高。还观察到,随着斑块大小的增加,经历严重高值WSS的区域也扩大。建议血压监测是必要的,以抑制伴随的心血管疾病与高血压相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational Simulation of Atherosclerosis Progression Associated with Blood Pressure in a 2-D Idealized Human Carotid Artery Model
Cardiovascular diseases are a known health threat with no respect for age. The need to understand the initiation and progress of the disease is expedient in proper diagnosis and management of the disease. The work is targeted at simulating the effect of elevated blood pressure on the initiation and development of plaque over time concerning wall shear stress, WSS and plaque wall stress, and PWS. Conditions such as blood velocity, pressure, and arterial wall conditions associated with blood flow in arteries, as well as patient-specific characterization related to these variables and conditions, were plugged into modified models in the COMSOL multiphysics software. The artery was modeled as an idealized 2-D carotid artery model. Results showed that the WSS distribution with respect to changes with a blood pressure of 500 Pa gave the highest WSS value at the plaque neck and 1500 Pa gave the highest WSS value in the regions close to the plaque root. It was also observed that as the plaque size increased, the region experiencing severely high values for WSS also expanded. It can be recommended that blood pressure monitoring is necessary to curb the attendant cardiovascular diseases associated with high blood pressure.
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