This work presents a numerical approach to non-invasively help the diagnosis of patients with vascular pathologies on an individual basis. Patient-specific computational modeling of cardiovascular biomechanics was conducted to simulate the hemodynamics, the elastomechanics and their interaction within the vessels. For the blood flow and vessel wall computations, individual mesh generation techniques and numerical models for CSM, CFD and FSI were generated and implemented based on CT/MRI images
Computer modeling and simulation (CM&S) in biomedical science is a powerful tool that can offer a co...
Aortic dissection (AD) is a multifactorial disease that affects the aorta. The trigger of AD is the ...
This thesis focuses on modeling and simulation of the blood flow in the aorta, the largest artery in...
A complex network of vessels is responsible for the transportation of blood throughout the body and ...
AbstractWe review how advances in computational techniques are improving our understanding of the bi...
Blood flow in the arterial circulation induces hemodynamic forces that play an important role in var...
For few decades, it has been shown that atherosclerosis is the cause of the majority of clinical car...
Understanding of flow pattern behaviour inside the aorta contributes significantly in diseases treat...
Three dimensional pulsatile blood flow CFD simulations in geometrically genuine normal and non-norma...
Study of blood flow inside arteries is physiologically significant and computationally challenging. ...
Cardiovascular diseases cause over 47 % of all deaths in Europe each year. Computational fluid dynam...
Aortic dissection is a severe cardiovascular pathology in which a tear in the intimal layer of the a...
Atherosclerotic lesions of human beings are common diagnosed in regions of arterial branching and cu...
Computational Fluid Dynamics (CFD) have been in the focus of the biomedical com- munity for many ...
We focus on the arterial fluid mechanics of patient-specific computer modeling of blood flow in the ...
Computer modeling and simulation (CM&S) in biomedical science is a powerful tool that can offer a co...
Aortic dissection (AD) is a multifactorial disease that affects the aorta. The trigger of AD is the ...
This thesis focuses on modeling and simulation of the blood flow in the aorta, the largest artery in...
A complex network of vessels is responsible for the transportation of blood throughout the body and ...
AbstractWe review how advances in computational techniques are improving our understanding of the bi...
Blood flow in the arterial circulation induces hemodynamic forces that play an important role in var...
For few decades, it has been shown that atherosclerosis is the cause of the majority of clinical car...
Understanding of flow pattern behaviour inside the aorta contributes significantly in diseases treat...
Three dimensional pulsatile blood flow CFD simulations in geometrically genuine normal and non-norma...
Study of blood flow inside arteries is physiologically significant and computationally challenging. ...
Cardiovascular diseases cause over 47 % of all deaths in Europe each year. Computational fluid dynam...
Aortic dissection is a severe cardiovascular pathology in which a tear in the intimal layer of the a...
Atherosclerotic lesions of human beings are common diagnosed in regions of arterial branching and cu...
Computational Fluid Dynamics (CFD) have been in the focus of the biomedical com- munity for many ...
We focus on the arterial fluid mechanics of patient-specific computer modeling of blood flow in the ...
Computer modeling and simulation (CM&S) in biomedical science is a powerful tool that can offer a co...
Aortic dissection (AD) is a multifactorial disease that affects the aorta. The trigger of AD is the ...
This thesis focuses on modeling and simulation of the blood flow in the aorta, the largest artery in...