Proper functioning of white blood cells is not possible without their ability to adhere to vascular endothelium, which may occur only if they are close enough to vessel walls. To facilitate the adhesion, white blood cells migrate toward the vessel walls in blood flow through a process called margination. The margination of white cells depends on a number of conditions including local hematocrit, flow rate, red blood cell aggregation, and the deformability of both red and white cells. To better understand the margination process of white blood cells, we employ mesoscopic hydrodynamic simulations of a three-dimensional model of blood flow, which has been previously shown to capture quantitatively realistic blood flow properties and rheology. ...
Blood flow presents several interesting phenomena in microcirculation that can be used to develop mi...
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...
Microfabrication of polydimethylsiloxane (PDMS) devices has provided a new set of tools for studying...
A key step in particle-based drug delivery through microcirculation is particle migration from blood...
Mesoscale simulations of blood flow, where the red blood cells are described as deformable closed sh...
Margination of stiffened red blood cells has been implicated in many vascular diseases. Here, we rep...
The influence of red blood cell (RBC) deformability in whole blood on platelet margination is invest...
Blood is a suspension of objects of various shapes, sizes and mechanical properties, whose distribut...
Blood is modeled as a suspension of red blood cells using the dissipative particle dynamics method. ...
Microvascular blood flow resistance has a strong impact on cardiovascular function and tissue perfus...
AbstractIt has long been known that platelets undergo margination when flowing in blood vessels, suc...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Abstract Motion and distribution of red blood cells in blood microvessels depend on vessel diameter,...
AbstractAs part of the inflammation response, white blood cells (leukocytes) are well known to bind ...
Blood flow presents several interesting phenomena in microcirculation that can be used to develop mi...
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...
Microfabrication of polydimethylsiloxane (PDMS) devices has provided a new set of tools for studying...
A key step in particle-based drug delivery through microcirculation is particle migration from blood...
Mesoscale simulations of blood flow, where the red blood cells are described as deformable closed sh...
Margination of stiffened red blood cells has been implicated in many vascular diseases. Here, we rep...
The influence of red blood cell (RBC) deformability in whole blood on platelet margination is invest...
Blood is a suspension of objects of various shapes, sizes and mechanical properties, whose distribut...
Blood is modeled as a suspension of red blood cells using the dissipative particle dynamics method. ...
Microvascular blood flow resistance has a strong impact on cardiovascular function and tissue perfus...
AbstractIt has long been known that platelets undergo margination when flowing in blood vessels, suc...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Abstract Motion and distribution of red blood cells in blood microvessels depend on vessel diameter,...
AbstractAs part of the inflammation response, white blood cells (leukocytes) are well known to bind ...
Blood flow presents several interesting phenomena in microcirculation that can be used to develop mi...
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...