Red blood cells (RBCs) make up 40-45% of blood and play an important role in oxygen transport. That transport depends on the RBC distribution throughout the body, which is highly heterogeneous. That distribution, in turn, depends on how RBCs are distributed or partitioned at diverging vessel bifurcations where blood flows from one vessel into two. Several studies have used mathematical modeling to consider RBC partitioning at such bifurcations in order to produce useful insights. These studies, however, assume that the vessel wall is a flat impenetrable homogeneous surface. While this is a good first approximation, especially for larger vessels, the vessel wall is typically coated by a flexible, porous endothelial glycocalyx or endothelial ...
Vascular endothelial cells and circulating red blood cell (RBC) surfaces are both covered by a layer...
Vessel with ‘circular’ or ‘star-shaped’ cross sections are studied, representing respectively dilate...
Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine t...
Microvascular blood flow resistance has a strong impact on cardiovascular function and tissue perfus...
When blood flows through vessel networks, red blood cells (RBCs) are typically concentrated close to...
When blood flows through vessel networks, red blood cells (RBCs) are typically concentrated close to...
Microvascular transport is strongly influenced by the nonuniform partitioning of red blood cells at ...
The endothelial lining of blood vessels presents a large surface area for exchanging materials betwe...
AbstractThis paper studies red blood cell (RBC) partitioning and blood flux redistribution in microv...
Microvascular flows are often considered to be free of red blood cell aggregates, however, recent st...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
The remarkable deformability of red blood cells (RBCs) depends on the viscoelasticity of the plasma ...
In blood microvessels, the finite size of the red blood cell relative to the vessel diameter gives r...
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
Vascular endothelial cells and circulating red blood cell (RBC) surfaces are both covered by a layer...
Vessel with ‘circular’ or ‘star-shaped’ cross sections are studied, representing respectively dilate...
Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine t...
Microvascular blood flow resistance has a strong impact on cardiovascular function and tissue perfus...
When blood flows through vessel networks, red blood cells (RBCs) are typically concentrated close to...
When blood flows through vessel networks, red blood cells (RBCs) are typically concentrated close to...
Microvascular transport is strongly influenced by the nonuniform partitioning of red blood cells at ...
The endothelial lining of blood vessels presents a large surface area for exchanging materials betwe...
AbstractThis paper studies red blood cell (RBC) partitioning and blood flux redistribution in microv...
Microvascular flows are often considered to be free of red blood cell aggregates, however, recent st...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
The remarkable deformability of red blood cells (RBCs) depends on the viscoelasticity of the plasma ...
In blood microvessels, the finite size of the red blood cell relative to the vessel diameter gives r...
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
Vascular endothelial cells and circulating red blood cell (RBC) surfaces are both covered by a layer...
Vessel with ‘circular’ or ‘star-shaped’ cross sections are studied, representing respectively dilate...
Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine t...