The patchy distribution of atherosclerosis within the arterial system is consistent with a controlling influence of hemodynamic wall shear stress (WSS). Patterns of low, oscillatory and transverse WSS have been invoked to explain the distribution of disease in the aorta. Disease of coronary arteries has greater clinical importance but blood flow in these vessels may be complicated by their movement during the cardiac cycle. Previous studies have shown that time average WSS is little affected by the dynamic geometry, and that oscillatory shear is influenced more. Here we additionally investigate effects on transverse WSS. We also investigate the influence of non-Newtonian blood rheologyas it can influence vortical structure, on which transve...
Atherosclerotic lesions develop non-uniformly throughout the arterial system and their distribution ...
The numerical analysis of coronary artery flow was presented. The importance of time-dependence of t...
Physiologically relevant simulations of blood flow require models that allow for wall deformation. N...
The patchy distribution of atherosclerosis within the arterial system is consistent with a controlli...
A computer simulation of the blood flow in a patient specific atherosclerotic right coronary artery ...
The objective of the present study was to evaluate the hemodynamic characteristics of an atheroscler...
AbstractThe patchy distribution of atherosclerosis within arteries is widely attributed to local var...
Abnormal haemodynamic parameters are associated with atheroma plaque progression and instability in ...
Objectives: The atherosclerotic process in arteries is correlated with the local wall shear stress (...
Vascular wall shear stress (WSS) has been correlated to the development of atherosclerosis in arteri...
Cardiovascular diseases are one of the major causes of death in the world; atherosclerosis being one...
The distribution of wall shear stress (WSS) in coronary arteries is an initiating factor for coronar...
A numerical analysis is performed in order to study coronary artery wall shear stress (WSS) and its ...
This study looks at pulsatile blood flow through four different right coronary arteries, which have ...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
Atherosclerotic lesions develop non-uniformly throughout the arterial system and their distribution ...
The numerical analysis of coronary artery flow was presented. The importance of time-dependence of t...
Physiologically relevant simulations of blood flow require models that allow for wall deformation. N...
The patchy distribution of atherosclerosis within the arterial system is consistent with a controlli...
A computer simulation of the blood flow in a patient specific atherosclerotic right coronary artery ...
The objective of the present study was to evaluate the hemodynamic characteristics of an atheroscler...
AbstractThe patchy distribution of atherosclerosis within arteries is widely attributed to local var...
Abnormal haemodynamic parameters are associated with atheroma plaque progression and instability in ...
Objectives: The atherosclerotic process in arteries is correlated with the local wall shear stress (...
Vascular wall shear stress (WSS) has been correlated to the development of atherosclerosis in arteri...
Cardiovascular diseases are one of the major causes of death in the world; atherosclerosis being one...
The distribution of wall shear stress (WSS) in coronary arteries is an initiating factor for coronar...
A numerical analysis is performed in order to study coronary artery wall shear stress (WSS) and its ...
This study looks at pulsatile blood flow through four different right coronary arteries, which have ...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
Atherosclerotic lesions develop non-uniformly throughout the arterial system and their distribution ...
The numerical analysis of coronary artery flow was presented. The importance of time-dependence of t...
Physiologically relevant simulations of blood flow require models that allow for wall deformation. N...