Carotid artery blood flow is studied to compare models with rigid and elastic walls. Considering a patient-specific geometry and transient boundary conditions. In the case of rigid walls, only the fluid (blood) behavior is considered, in a typical Computational Fluid Dynamics study. With the elastic walls, the reciprocal influence of both fluid and solid (blood and artery) are taken into account, constituting a Fluid-Structure Interaction study. Further more, the study of the influence of mechanical properties of the artery, which become stiffer with the progression of atherosclerosis, on blood flow is also presented, an innovative approach relative to the work done in this field. Results show that the carotid sinus is the preferential ...
SummaryA short introduction is given of how fluid dynamics forces and velocity distribution influenc...
The behavior of blood during its flow in human arteries has always been a subject of keen interest. ...
Numerical fluid biomechanics has proven to be an efficient tool for understanding vascular diseases ...
Atherosclerosis is a chronic disease affecting millions worldwide by leading to heart attack and str...
Cardiovascular system abnormalities can result in serious health complications. By using the fluid–s...
Pulsatile blood flow through the human carotid artery is studied using Computational Fluid Dynamics ...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
Advances in the numerical simulation techniques has immensely helped in the demonstrating the import...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2002.Includ...
Atherosclerosis is a localized complication dependent on both the rheology and the arterial response...
Objectives: The atherosclerotic process in arteries is correlated with the local wall shear stress (...
Numerical fluid biomechanics has been proved to be an efficient tool for understanding ...
The characteristics of physiological blood flow in human carotid arterial bifurcation model have bee...
Certain systems relevant to circulatory disease have walls which are neither rigid nor static, for e...
The inflammatory process of atherosclerosis leads to the formation of an atheroma plaque in the bloo...
SummaryA short introduction is given of how fluid dynamics forces and velocity distribution influenc...
The behavior of blood during its flow in human arteries has always been a subject of keen interest. ...
Numerical fluid biomechanics has proven to be an efficient tool for understanding vascular diseases ...
Atherosclerosis is a chronic disease affecting millions worldwide by leading to heart attack and str...
Cardiovascular system abnormalities can result in serious health complications. By using the fluid–s...
Pulsatile blood flow through the human carotid artery is studied using Computational Fluid Dynamics ...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
Advances in the numerical simulation techniques has immensely helped in the demonstrating the import...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2002.Includ...
Atherosclerosis is a localized complication dependent on both the rheology and the arterial response...
Objectives: The atherosclerotic process in arteries is correlated with the local wall shear stress (...
Numerical fluid biomechanics has been proved to be an efficient tool for understanding ...
The characteristics of physiological blood flow in human carotid arterial bifurcation model have bee...
Certain systems relevant to circulatory disease have walls which are neither rigid nor static, for e...
The inflammatory process of atherosclerosis leads to the formation of an atheroma plaque in the bloo...
SummaryA short introduction is given of how fluid dynamics forces and velocity distribution influenc...
The behavior of blood during its flow in human arteries has always been a subject of keen interest. ...
Numerical fluid biomechanics has proven to be an efficient tool for understanding vascular diseases ...