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肺动脉高压中血流动力学和血管壁力学及其相互作用的患者特异性计算分析

Patient-Specific Computational Analysis of Hemodynamics and Wall Mechanics and Their Interactions in Pulmonary Arterial Hypertension.

作者信息

Zambrano Byron A, McLean Nathan, Zhao Xiaodan, Tan Ju-Le, Zhong Liang, Figueroa C Alberto, Lee Lik Chuan, Baek Seungik

机构信息

J. Mike Walker '66 Department of Mechanical Engineering, Texas A&M University, College Station, TX, United States.

Department of Mechanical Engineering, Michigan State University, East Lansing, MI, United States.

出版信息

Front Bioeng Biotechnol. 2021 Jan 28;8:611149. doi: 10.3389/fbioe.2020.611149. eCollection 2020.

Abstract

Vascular wall stiffness and hemodynamic parameters are potential biomechanical markers for detecting pulmonary arterial hypertension (PAH). Previous computational analyses, however, have not considered the interaction between blood flow and wall deformation. Here, we applied an established computational framework that utilizes patient-specific measurements of hemodynamics and wall deformation to analyze the coupled fluid-vessel wall interaction in the proximal pulmonary arteries (PA) of six PAH patients and five control subjects. Specifically, we quantified the linearized stiffness (), relative area change (RAC), diastolic diameter (), regurgitant flow, and time-averaged wall shear stress (TAWSS) of the proximal PA, as well as the total arterial resistance ( ) and compliance ( ) at the distal pulmonary vasculature. Results found that the average proximal PA was stiffer [median: 297 kPa, interquartile range (IQR): 202 kPa vs. median: 75 kPa, IQR: 5 kPa; = 0.007] with a larger diameter (median: 32 mm, IQR: 5.25 mm vs. median: 25 mm, IQR: 2 mm; = 0.015) and a reduced RAC (median: 0.22, IQR: 0.10 vs. median: 0.42, IQR: 0.04; = 0.004) in PAH compared to our control group. Also, higher total resistance ( ; median: 6.89 mmHg × min/l, IQR: 2.16 mmHg × min/l vs. median: 3.99 mmHg × min/l, IQR: 1.15 mmHg × min/l; = 0.002) and lower total compliance ( ; median: 0.13 ml/mmHg, IQR: 0.15 ml/mmHg vs. median: 0.85 ml/mmHg, IQR: 0.51 ml/mmHg; = 0.041) were observed in the PAH group. Furthermore, lower TAWSS values were seen at the main PA arteries (MPAs) of PAH patients (median: 0.81 Pa, IQR: 0.47 Pa vs. median: 1.56 Pa, IQR: 0.89 Pa; = 0.026) compared to controls. Correlation analysis within the PAH group found that was directly correlated to the PA regurgitant flow ( = 0.84, = 0.018) and inversely related to TAWSS ( = -0.72, = 0.051). Results suggest that the estimated elastic modulus may be closely related to PAH hemodynamic changes in pulmonary arteries.

摘要

血管壁僵硬度和血流动力学参数是检测肺动脉高压(PAH)的潜在生物力学标志物。然而,以往的计算分析并未考虑血流与血管壁变形之间的相互作用。在此,我们应用了一个既定的计算框架,该框架利用患者特异性的血流动力学和血管壁变形测量值,来分析6例PAH患者和5例对照受试者近端肺动脉(PA)中流体与血管壁的耦合相互作用。具体而言,我们量化了近端PA的线性化僵硬度()、相对面积变化(RAC)、舒张期直径()、反流流量和时间平均壁面切应力(TAWSS),以及远端肺血管系统的总动脉阻力()和顺应性()。结果发现,与我们的对照组相比,PAH患者近端PA的平均僵硬度更大[中位数:297 kPa,四分位间距(IQR):202 kPa,而对照组中位数:75 kPa,IQR:5 kPa;P = 0.007],直径更大(中位数:32 mm,IQR:5.25 mm,而对照组中位数:25 mm,IQR:2 mm;P = 0.015),RAC降低(中位数:0.22,IQR:0.10,而对照组中位数:0.42,IQR:0.04;P = 0.004)。此外,PAH组的总阻力更高(;中位数:6.89 mmHg×min/l,IQR:2.16 mmHg×min/l,而对照组中位数:3.99 mmHg×min/l,IQR:1.15 mmHg×min/l;P = 0.002),总顺应性更低(;中位数:0.13 ml/mmHg,IQR:0.15 ml/mmHg,而对照组中位数:0.85 ml/mmHg,IQR:0.51 ml/mmHg;P = 0.041)。此外,与对照组相比,PAH患者主肺动脉(MPA)处的TAWSS值更低(中位数:0.81 Pa,IQR:0.47 Pa,而对照组中位数:1.56 Pa,IQR:0.89 Pa;P = 0.026)。PAH组内的相关性分析发现,与PA反流流量直接相关(r = 0.84,P = 0.018),与TAWSS呈负相关(r = -0.72,P = 0.051)。结果表明,估计的弹性模量可能与PAH患者肺动脉的血流动力学变化密切相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c47/7901991/658acfd34264/fbioe-08-611149-g0001.jpg

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