International audienceThe effect of red blood cells and the undulation of the endothelium on the shear stress in the microvasculature is studied numerically using the lattice Boltzmann-immersed boundary method (LB-IBM). The results demonstrate a significant effect of both the undulation of the endothelium and red blood cells on wall shear stress. Our results also reveal that morphological alterations of red blood cells, as occur in certain pathologies, can significantly affect the values of wall shear stress. The resulting fluctuations in wall shear stress greatly exceed the nominal values, emphasizing the importance of the particulate nature of blood as well as a more realistic description of vessel wall geometry in the study of hemodynami...
Hepatic sinusoids present complex anatomical structures such as the endothelial sieve pores and the ...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Wall shear stress acting on arterial walls is an important hemodynamic force determining vessel heal...
International audienceThe effect of red blood cells and the undulation of the endothelium on the she...
In order to address the problem of blood flow over the endothelium in small arteries, the near-endot...
AbstractIt is well known that mechanotransduction of hemodynamic forces mediates cellular processes,...
An experimental investigation of the wall shear stress distribution downstream of a backward-facing ...
Vessel with ‘circular’ or ‘star-shaped’ cross sections are studied, representing respectively dilate...
To determine the effect of laminar fluid shear stress on the morphology, motility, and biochemical e...
Objective: Our primary goal is to investigate the effects of non-Newtonian blood properties on wall ...
AbstractThis paper studies red blood cell (RBC) partitioning and blood flux redistribution in microv...
Red blood cells (RBCs) make up 40-45% of blood and play an important role in oxygen transport. That ...
The endothelial lining of blood vessels presents a large surface area for exchanging materials betwe...
The endothelium is a thin layer of endothelial cells that line the interior surface of an artery. Du...
Dysfunction of the vascular endothelium can initiate atherosclerosis. Mechanical forces, particularl...
Hepatic sinusoids present complex anatomical structures such as the endothelial sieve pores and the ...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Wall shear stress acting on arterial walls is an important hemodynamic force determining vessel heal...
International audienceThe effect of red blood cells and the undulation of the endothelium on the she...
In order to address the problem of blood flow over the endothelium in small arteries, the near-endot...
AbstractIt is well known that mechanotransduction of hemodynamic forces mediates cellular processes,...
An experimental investigation of the wall shear stress distribution downstream of a backward-facing ...
Vessel with ‘circular’ or ‘star-shaped’ cross sections are studied, representing respectively dilate...
To determine the effect of laminar fluid shear stress on the morphology, motility, and biochemical e...
Objective: Our primary goal is to investigate the effects of non-Newtonian blood properties on wall ...
AbstractThis paper studies red blood cell (RBC) partitioning and blood flux redistribution in microv...
Red blood cells (RBCs) make up 40-45% of blood and play an important role in oxygen transport. That ...
The endothelial lining of blood vessels presents a large surface area for exchanging materials betwe...
The endothelium is a thin layer of endothelial cells that line the interior surface of an artery. Du...
Dysfunction of the vascular endothelium can initiate atherosclerosis. Mechanical forces, particularl...
Hepatic sinusoids present complex anatomical structures such as the endothelial sieve pores and the ...
Endothelial cell dysfunction has been linked to atherosclerosis through their response to hemodynami...
Wall shear stress acting on arterial walls is an important hemodynamic force determining vessel heal...