This paper presents numerical investigations on wall shear stress (WSS) profiles in three-dimensional pulsatile flow through curved stenotic coronary arteries. Clinical evidence has shown that plaque tends to form in the low and oscillatory WSS regions. Direct numerical simulations are carried out in threedimensional models of the curved arteries with three different degrees of stenosis (0%, 50% and 90%). Low and oscillatory WSS is found near the inner wall of curved artery distal to the stenosis. It is only in the severe stenosis case that a chaotic WSS region is observed downstream of stenosis.S. Li, C. Chin, J. Monty, P. Barlis and A. Oo
Local hemodynamic parameters, such as wall shear stress (WSS), oscillatory shear index and relative ...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
The objective of the present study was to evaluate the hemodynamic characteristics of an atheroscler...
A computer simulation of the blood flow in a patient specific atherosclerotic right coronary artery ...
Abstract: Ischaemic heart disease has been the leading cause of death in Australia for the past 10 y...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
The distribution of wall shear stress (WSS) in coronary arteries is an initiating factor for coronar...
It has been widely observed that atherosclerotic stenosis occurs at sites with complex hemodynamics,...
The turbulence in the blood flow, caused by plaque deposition on the arterial wall, increases by the...
10 p.Different shapes of pulsatile flows through a model of stenosis are experimentally and numerica...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
In this study, we investigate plaques located at the left coronary bifurcation. We focus on the effe...
A three-dimensional model with simplified geometry for the coronary artery is presented. In particul...
Introduction: Among cardiovascular diseases, arterials stenosis is recognized more commonly than th...
Local hemodynamic parameters, such as wall shear stress (WSS), oscillatory shear index and relative ...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
The objective of the present study was to evaluate the hemodynamic characteristics of an atheroscler...
A computer simulation of the blood flow in a patient specific atherosclerotic right coronary artery ...
Abstract: Ischaemic heart disease has been the leading cause of death in Australia for the past 10 y...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
The distribution of wall shear stress (WSS) in coronary arteries is an initiating factor for coronar...
It has been widely observed that atherosclerotic stenosis occurs at sites with complex hemodynamics,...
The turbulence in the blood flow, caused by plaque deposition on the arterial wall, increases by the...
10 p.Different shapes of pulsatile flows through a model of stenosis are experimentally and numerica...
The current study presents computational models to investigate the poststenting hemodynamic stresses...
In this study, we investigate plaques located at the left coronary bifurcation. We focus on the effe...
A three-dimensional model with simplified geometry for the coronary artery is presented. In particul...
Introduction: Among cardiovascular diseases, arterials stenosis is recognized more commonly than th...
Local hemodynamic parameters, such as wall shear stress (WSS), oscillatory shear index and relative ...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
The objective of the present study was to evaluate the hemodynamic characteristics of an atheroscler...