Introduction: In this study, Renal artery (RA) stenosis of Single Stenosed (SS) and Double Stenosed (DS) with the condition of Normal Blood Pressure (NBP) and High Blood Pressure (HBP) were investigated using the aid of Fluid Structure Interaction (FSI) approach. Methods: Numerical analysis of 3D model patient’s specific abdominal aorta with RA stenosis was conducted using FSI solver in software ANSYS 18. Results: The results of velocity profile, pressure drop, time average wall shear stress (TAWSS), Oscillatory shear index (OSI) and total deformation of SS and DS with the condition of NBP and HBP were compared in terms of blood flow and structural wall tissue behaviour. The results concluded SS-NBP produced the highest value of velocity p...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
2D and 3D multi-physics experiment-based nonlinear models with fluid-structure interactions (FSI) an...
Aneurysm and stenosis are widely regarded as the main causes of the cardiovascular diseases (CVDs). ...
This study investigated the impact of single stenosed (SS) and double stenosed (DS) of renal artery ...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
The haemodynamics of cardiovascular diseases such as atherosclerosis can be demonstrated using an ad...
This study concerns the two-dimensional structure computational results of renal artery stenosis. In...
peer reviewedThe present study reports on computational fluid dynamics in the case of severe renal a...
Arterial stenoses may cause critical blood flow and wall conditions leading to clinical complication...
The purpose of this study was to identify the characteristics of blood flow in aortic coarctation ba...
In this study, we investigate the behavior of the pulsatile blood flow in an actual Abdominal Aortic...
Atherosclerosis is the most common cardiovascular disease (CVD) causing increased morbidity. Althoug...
Advances in numerical simulation have allowed the investigation of complex interaction of blood flow...
Objective: We wanted to investigate the hemodynamic effect of fenestrated stents on the renal arteri...
Purpose: To investigate the hemodynamic effect of fenestrated stents on renal arteries using a fluid...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
2D and 3D multi-physics experiment-based nonlinear models with fluid-structure interactions (FSI) an...
Aneurysm and stenosis are widely regarded as the main causes of the cardiovascular diseases (CVDs). ...
This study investigated the impact of single stenosed (SS) and double stenosed (DS) of renal artery ...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
The haemodynamics of cardiovascular diseases such as atherosclerosis can be demonstrated using an ad...
This study concerns the two-dimensional structure computational results of renal artery stenosis. In...
peer reviewedThe present study reports on computational fluid dynamics in the case of severe renal a...
Arterial stenoses may cause critical blood flow and wall conditions leading to clinical complication...
The purpose of this study was to identify the characteristics of blood flow in aortic coarctation ba...
In this study, we investigate the behavior of the pulsatile blood flow in an actual Abdominal Aortic...
Atherosclerosis is the most common cardiovascular disease (CVD) causing increased morbidity. Althoug...
Advances in numerical simulation have allowed the investigation of complex interaction of blood flow...
Objective: We wanted to investigate the hemodynamic effect of fenestrated stents on the renal arteri...
Purpose: To investigate the hemodynamic effect of fenestrated stents on renal arteries using a fluid...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
2D and 3D multi-physics experiment-based nonlinear models with fluid-structure interactions (FSI) an...
Aneurysm and stenosis are widely regarded as the main causes of the cardiovascular diseases (CVDs). ...