Abstract Background Many cardiovascular diseases, such as aortic dissection, frequently occur on the aortic arch and fluid-structure interactions play an important role in the cardiovascular system. Mechanical stress is crucial in the functioning of the cardiovascular system; therefore, stress analysis is a useful tool for understanding vascular pathophysiology. The present study is concerned with the stress distribution in a layered aortic arch model with interaction between pulsatile flow and the wall of the blood vessel. Methods A three-dimensional (3D) layered aortic arch model was constructed based on the aortic wall structure and arch shape. The complex mechanical interaction between pulsatile blood flow and wall dynamics in the aorti...
Background: Aortic valve diseases affect about 25% of the population over 65 years of age. Aortic va...
In this study, we investigate the behavior of the pulsatile blood flow in an actual Abdominal Aortic...
Spiral blood flow in the aorta is helpful in maintaining the stability of flow, reduction in lateral...
Background: Many cardiovascular diseases, such as aortic dissection, frequently occur on the aortic ...
Cardiovascular disease is the one of most important diseases for human in the developed countries an...
A three-dimensional computer model of human aortic arch with three branches is reproduced to study t...
Abstract Background Biomechanical factors influence stress in the aortic wall. The aim of this study...
Risk assessment is critical in preventing aortic dissection (AD). This study aims to evaluate the wa...
The aortic arch is at risk of several cardiovascular diseases, such as aortic dissection. Many of th...
The present study investigates effects of surrounding tissues and non-uniform wall thickness on the ...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The ascending branch of the aorta is one of the most stressed organ of the arterial system. We aim t...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
In this work, blood flow dynamics was analyzed in a realistic thoracic aorta (TA) model under unstea...
International audienceObjective: To assess whether combining a computational modeling technique with...
Background: Aortic valve diseases affect about 25% of the population over 65 years of age. Aortic va...
In this study, we investigate the behavior of the pulsatile blood flow in an actual Abdominal Aortic...
Spiral blood flow in the aorta is helpful in maintaining the stability of flow, reduction in lateral...
Background: Many cardiovascular diseases, such as aortic dissection, frequently occur on the aortic ...
Cardiovascular disease is the one of most important diseases for human in the developed countries an...
A three-dimensional computer model of human aortic arch with three branches is reproduced to study t...
Abstract Background Biomechanical factors influence stress in the aortic wall. The aim of this study...
Risk assessment is critical in preventing aortic dissection (AD). This study aims to evaluate the wa...
The aortic arch is at risk of several cardiovascular diseases, such as aortic dissection. Many of th...
The present study investigates effects of surrounding tissues and non-uniform wall thickness on the ...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The ascending branch of the aorta is one of the most stressed organ of the arterial system. We aim t...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
In this work, blood flow dynamics was analyzed in a realistic thoracic aorta (TA) model under unstea...
International audienceObjective: To assess whether combining a computational modeling technique with...
Background: Aortic valve diseases affect about 25% of the population over 65 years of age. Aortic va...
In this study, we investigate the behavior of the pulsatile blood flow in an actual Abdominal Aortic...
Spiral blood flow in the aorta is helpful in maintaining the stability of flow, reduction in lateral...