The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the artery is subject to an axial load, a wall stress in the circumferential direction due to the internal pulsatile pressure and a frictional stress, the wall shear stress, generated by the moving blood. The cells are sensitive to changes in the magnitude and frequency of these stresses which are important modulators of cell function. Deviation of the mechanical environment of the cells from homeostatic levels stimulates vessel wall remodeling, increasing the production of structural proteins and degradative enzymes until a new homeostatic state is achieved. The haemodynamic environment can give rise to deleterious remodeling, for example, atheros...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
In this chapter, we discuss how biomechanical forces influence vascular design. We will focus on the...
<div><p>Development of many conditions and disorders, such as atherosclerosis and stroke, are depend...
The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the ar...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
textabstractStudies in the hemodynamic field point to a strong relation between shear stress and th...
The pathology of arterial diseases such as aneurysms and atherosclerosis is of great clinical intere...
The purpose of this study was to determine the influence of radial motion of an arterial wall on the...
textabstractAtherosclerosis, a degenerative arterial disease, is a leading cause of death in the wes...
The main hemodynamic forces acting on the vessel wall are the wall shear stress (WSS), caused by the...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
The main hemodynamic forces acting on the vessel wall are the wall shear stress (WSS), caused by the...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
In this chapter, we discuss how biomechanical forces influence vascular design. We will focus on the...
<div><p>Development of many conditions and disorders, such as atherosclerosis and stroke, are depend...
The arterial wall is exposed to mechanical forces associated with the flowing blood. In vivo the ar...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
Clinical research has historically focused on the two main strategies of in vivo and in vitro experi...
textabstractStudies in the hemodynamic field point to a strong relation between shear stress and th...
The pathology of arterial diseases such as aneurysms and atherosclerosis is of great clinical intere...
The purpose of this study was to determine the influence of radial motion of an arterial wall on the...
textabstractAtherosclerosis, a degenerative arterial disease, is a leading cause of death in the wes...
The main hemodynamic forces acting on the vessel wall are the wall shear stress (WSS), caused by the...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
The main hemodynamic forces acting on the vessel wall are the wall shear stress (WSS), caused by the...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
In this chapter, we discuss how biomechanical forces influence vascular design. We will focus on the...
<div><p>Development of many conditions and disorders, such as atherosclerosis and stroke, are depend...