Hemodynamic analysis of unilateral and bilateral renal artery stenosis based on fluid-structure interaction.

IF 1.7 4区 医学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Bingxin Liu, Jiawei Zhao, Xuehui Chen, Kun Fang, Weidong Yang, Xuelan Zhang, Chang Shu
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引用次数: 0

Abstract

Renal artery stenosis (RAS) hypertension is a common type of secondary hypertension. This paper aimed to explore how unilateral renal artery stenosis (Uni-RAS) and bilateral renal artery stenosis (Bi-RAS) caused renovascular hypertension with the fluid-structure interaction (FSI) method. Based on a real RAS model, 20 ideal models with different stenosis degrees were established by modifying the stenosis segment. The hemodynamic parameters at different degrees of stenosis, mass flow rate (MFR), pressure drop (PD), fractional flow reserve (FFR), oscillatory shear index (OSI), and relative residence time (RRT), were numerically calculated by the computational fluid dynamics (CFD) method. The numerical results showed that RAS caused the decrease of MFR, and the increase of PD and the proportion of high OSI and high RRT. In the case of RAS, it could not be regarded as a reference indicator for causing renovascular hypertension that the value of FFR was greater than 0.9. In addition, the results of the statistical analysis indicated that Uni-RAS and Bi-RAS were statistically different for MFR, PD and the proportion of high RRT.

基于流固相互作用的单侧和双侧肾动脉狭窄血流动力学分析。
肾动脉狭窄性高血压是一种常见的继发性高血压。本文旨在应用流固相互作用(FSI)方法探讨单侧肾动脉狭窄(Uni-RAS)和双侧肾动脉狭窄(Bi-RAS)是如何引起肾血管性高血压的。在真实RAS模型的基础上,通过修改狭窄段,建立了20个不同狭窄程度的理想模型。采用计算流体力学(CFD)方法,数值计算了不同狭窄程度下的血流动力学参数:质量流量(MFR)、压降(PD)、分流流量储备(FFR)、振荡剪切指数(OSI)和相对停留时间(RRT)。数值结果表明,RAS降低了MFR,增加了PD以及高OSI和高RRT的比例。在RAS的情况下,FFR大于0.9不能作为引起肾血管性高血压的参考指标。此外,统计分析结果显示,Uni-RAS和Bi-RAS在MFR、PD和高RRT比例上有统计学差异。
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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来源期刊
CiteScore
4.10
自引率
6.20%
发文量
179
审稿时长
4-8 weeks
期刊介绍: The primary aims of Computer Methods in Biomechanics and Biomedical Engineering are to provide a means of communicating the advances being made in the areas of biomechanics and biomedical engineering and to stimulate interest in the continually emerging computer based technologies which are being applied in these multidisciplinary subjects. Computer Methods in Biomechanics and Biomedical Engineering will also provide a focus for the importance of integrating the disciplines of engineering with medical technology and clinical expertise. Such integration will have a major impact on health care in the future.
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