Add to ORKGLocated between circulating blood and vessel wall, vascular endothelial cells (ECs) are constantly exposed to shear stress resulting from blood flow. The mechanical actions of shear stress can be detected by mechanosensors on ECs and converted into specific signaling pathways to mediate the structural and functional remodeling. Patterns of shear stress may contribute to the focal distribution of atherosclerotic lesions. Here, we review recent advances regarding the roles of shear stress in atherogenesis.PubMed0137-423
EC (endothelial cell) responses to shear stress generated by vascular perfusion play an important ro...
Atherosclerosis develops preferentially at branches and curvatures of the arterial tree, where blood...
In the developing embryo, the vasculature first takes the form of a web-like network called the vasc...
[[abstract]]Atherosclerosis preferentially develops at branches and curvatures of the arterial tree,...
[[abstract]]Atherosclerosis preferentially develops at branches and curvatures of the arterial tree,...
Different blood flow patterns in the arteries can alter the adaptive phenotype of vascular endotheli...
Haemodynamic forces influence the functional properties of vascular endothelium. Endothelial cells (...
Shear stress and the endothelium. Vascular endothelial cells (ECs) in vivo are influenced by two dis...
Blood-flow-induced shear stress acting on the arterial wall is of paramount importance in vascular b...
Blood-flow-induced shear stress acting on the arterial wall is of paramount importance in vascular b...
International audienceBlood flow produces mechanical frictional forces, parallel to the blood flow e...
textabstractStudies in the hemodynamic field point to a strong relation between shear stress and th...
The behavior of vascular EC is greatly altered in sites of pathological angiogenesis, such as a deve...
Atherosclerosis develops preferentially at branches and curvatures of the arterial tree, where blood...
EC (endothelial cell) responses to shear stress generated by vascular perfusion play an important ro...
EC (endothelial cell) responses to shear stress generated by vascular perfusion play an important ro...
Atherosclerosis develops preferentially at branches and curvatures of the arterial tree, where blood...
In the developing embryo, the vasculature first takes the form of a web-like network called the vasc...
[[abstract]]Atherosclerosis preferentially develops at branches and curvatures of the arterial tree,...
[[abstract]]Atherosclerosis preferentially develops at branches and curvatures of the arterial tree,...
Different blood flow patterns in the arteries can alter the adaptive phenotype of vascular endotheli...
Haemodynamic forces influence the functional properties of vascular endothelium. Endothelial cells (...
Shear stress and the endothelium. Vascular endothelial cells (ECs) in vivo are influenced by two dis...
Blood-flow-induced shear stress acting on the arterial wall is of paramount importance in vascular b...
Blood-flow-induced shear stress acting on the arterial wall is of paramount importance in vascular b...
International audienceBlood flow produces mechanical frictional forces, parallel to the blood flow e...
textabstractStudies in the hemodynamic field point to a strong relation between shear stress and th...
The behavior of vascular EC is greatly altered in sites of pathological angiogenesis, such as a deve...
Atherosclerosis develops preferentially at branches and curvatures of the arterial tree, where blood...
EC (endothelial cell) responses to shear stress generated by vascular perfusion play an important ro...
EC (endothelial cell) responses to shear stress generated by vascular perfusion play an important ro...
Atherosclerosis develops preferentially at branches and curvatures of the arterial tree, where blood...
In the developing embryo, the vasculature first takes the form of a web-like network called the vasc...