Hemodynamics simulation and analysis of left coronary artery aneurysms with concomitant stenosis

The hemodynamic parameters in arteries are difficult to measure non-invasively, and the analysis and prediction of hemodynamic parameters based on computational fluid dynamics (CFD) has become one of the important research hotspots in biomechanics. This article establishes 15 idealized left coronary...

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Veröffentlicht in:	Sheng wu yi xue gong cheng xue za zhi 2024-10, Vol.41 (5), p.1026
Hauptverfasser:	Shi, Zhengjia, Sang, Jianbing, Sun, Lifang, Li, Fengtao, Tao, Yaping, Yang, Peng
Format:	Artikel
Sprache:	chi
Schlagworte:	Computer Simulation Coronary Aneurysm - etiology Coronary Aneurysm - physiopathology Coronary Stenosis - physiopathology Coronary Vessels - physiopathology Hemodynamics Humans Hydrodynamics Models, Cardiovascular
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creator	Shi, Zhengjia Sang, Jianbing Sun, Lifang Li, Fengtao Tao, Yaping Yang, Peng
description	The hemodynamic parameters in arteries are difficult to measure non-invasively, and the analysis and prediction of hemodynamic parameters based on computational fluid dynamics (CFD) has become one of the important research hotspots in biomechanics. This article establishes 15 idealized left coronary artery bifurcation models with concomitant stenosis and aneurysm lesions, and uses CFD method to numerically simulate them, exploring the effects of left anterior descending branch (LAD) stenosis rate and curvature radius on the hemodynamics inside the aneurysm. This study compared models with different stenosis rates and curvature radii and found that as the stenosis rate increased, the oscillatory shear index (OSI) and relative residence time (RRT) showed a trend of increase; In addition, the decrease in curvature radius led to an increase in the degree of vascular curvature and an increased risk of vascular aneurysm rupture. Among them, when the stenosis rate was less than 60%, the impact of stenosis rate on an
doi_str_mv	10.7507/1001-5515.202310038
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This article establishes 15 idealized left coronary artery bifurcation models with concomitant stenosis and aneurysm lesions, and uses CFD method to numerically simulate them, exploring the effects of left anterior descending branch (LAD) stenosis rate and curvature radius on the hemodynamics inside the aneurysm. This study compared models with different stenosis rates and curvature radii and found that as the stenosis rate increased, the oscillatory shear index (OSI) and relative residence time (RRT) showed a trend of increase; In addition, the decrease in curvature radius led to an increase in the degree of vascular curvature and an increased risk of vascular aneurysm rupture. 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subjects	Computer Simulation Coronary Aneurysm - etiology Coronary Aneurysm - physiopathology Coronary Stenosis - physiopathology Coronary Vessels - physiopathology Hemodynamics Humans Hydrodynamics Models, Cardiovascular
title	Hemodynamics simulation and analysis of left coronary artery aneurysms with concomitant stenosis
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