SUMMARY Studies of the structure of blood vessels have commonly found that cells lining the vessels are lengthened in the direction of blood flow, presumably as an effect of shear stress. A study of aortic valves has, however, shown that endothelial cells covering both sides of aortic valve leaflets are arranged across the direction of flow. Aortic valve leaflets taken from seven adult mongrel dogs and fixed either open or closed with glutaraldehyde were studied with a scanning electron microscope after critical point drying. O n both open and closed leaflets the endothelial cells tended to be aligned circumferentially with the free edge of the leaflet. The circumferential pattern was particularly unexpected on the leaflet surface facing th...
AbstractAt present, little is known about how endothelial cells respond to spatial variations in flu...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Dysfunction of the vascular endothelium can initiate atherosclerosis. Mechanical forces, particularl...
The pattern of endothelial geometry at various locations along stenosed dog aortas was examined. Thi...
Contains fulltext : 172462.pdf (publisher's version ) (Open Access)Endothelial cel...
International audienceEndothelial cells covering the aortic and ventricular sides of the aortic valv...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
Aortic valve endothelial cells (ECs) function in vastly different levels of shear stress. The biomec...
The aortic valve (AV) functions in arguably the most demanding mechanical environment in the body. T...
International audienceIn vivo, vascular endothelial cells (VECs) are anchored to the underlying stro...
A stress analysis of porcine aortic valve leaflets in diastole at 80 mm. Hg. in-vitro is presented. ...
The regulation of valvular endothelial phenotypes by the hemodynamic environments of the human aorti...
A 69 +/- 5% stenosis was produced in the rat aorta, with the purpose of correlating endothelial chan...
The endothelium, a single layer of cells that lines all blood vessels, is the principal sensor of he...
AbstractAt present, little is known about how endothelial cells respond to spatial variations in flu...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Dysfunction of the vascular endothelium can initiate atherosclerosis. Mechanical forces, particularl...
The pattern of endothelial geometry at various locations along stenosed dog aortas was examined. Thi...
Contains fulltext : 172462.pdf (publisher's version ) (Open Access)Endothelial cel...
International audienceEndothelial cells covering the aortic and ventricular sides of the aortic valv...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
Aortic valve endothelial cells (ECs) function in vastly different levels of shear stress. The biomec...
The aortic valve (AV) functions in arguably the most demanding mechanical environment in the body. T...
International audienceIn vivo, vascular endothelial cells (VECs) are anchored to the underlying stro...
A stress analysis of porcine aortic valve leaflets in diastole at 80 mm. Hg. in-vitro is presented. ...
The regulation of valvular endothelial phenotypes by the hemodynamic environments of the human aorti...
A 69 +/- 5% stenosis was produced in the rat aorta, with the purpose of correlating endothelial chan...
The endothelium, a single layer of cells that lines all blood vessels, is the principal sensor of he...
AbstractAt present, little is known about how endothelial cells respond to spatial variations in flu...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Dysfunction of the vascular endothelium can initiate atherosclerosis. Mechanical forces, particularl...