The aims of this paper are to reveal the entrance effect on the drag force of the white blood cells moving in the entry region of the branching blood vessel and to obtain the stress distribution on the surface of the leukocyte. In order to simplify the approach, the leukocyte is approximated by the sphere as the first step and the flow in the parent's blood vessel is neglected.EI
The recruitment of leukocytes and subsequent rolling, activation, adhesion and transmigration are es...
ABsrRAcr As an idealized problem of the motion of blood in small capillary blood vessels, the low Re...
Summary A basic 2D numerical model has been developed to gain insight into the surface deformations ...
AbstractAs part of the inflammation response, white blood cells (leukocytes) are well known to bind ...
AbstractComputational fluid dynamics was used to model flow past multiple adherent leukocytes in pos...
As part of the inflammation response, white blood cells (leukocytes) bind nearly statically to blood...
A semi-ellipsoid attached on a wall is considered as a model problem for the study of blood flow eff...
AbstractWe present detailed simulation results of localised hemodynamics for a cluster of rolling le...
International audienceDirect numerical simulations (DNS) are used to study the motion and deformatio...
© 2009 Elsevier Ltd. All rights reserved.We present detailed simulation results of localised hemodyn...
The effect of finite boundaries on the drag experienced by a sphere exposed to the Poiseuille flow o...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
This paper presents motion of neutrophil in a confined environment. Many experimental and theoretica...
International audienceThe effect of red blood cells and the undulation of the endothelium on the she...
Proper functioning of white blood cells is not possible without their ability to adhere to vascular ...
The recruitment of leukocytes and subsequent rolling, activation, adhesion and transmigration are es...
ABsrRAcr As an idealized problem of the motion of blood in small capillary blood vessels, the low Re...
Summary A basic 2D numerical model has been developed to gain insight into the surface deformations ...
AbstractAs part of the inflammation response, white blood cells (leukocytes) are well known to bind ...
AbstractComputational fluid dynamics was used to model flow past multiple adherent leukocytes in pos...
As part of the inflammation response, white blood cells (leukocytes) bind nearly statically to blood...
A semi-ellipsoid attached on a wall is considered as a model problem for the study of blood flow eff...
AbstractWe present detailed simulation results of localised hemodynamics for a cluster of rolling le...
International audienceDirect numerical simulations (DNS) are used to study the motion and deformatio...
© 2009 Elsevier Ltd. All rights reserved.We present detailed simulation results of localised hemodyn...
The effect of finite boundaries on the drag experienced by a sphere exposed to the Poiseuille flow o...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
This paper presents motion of neutrophil in a confined environment. Many experimental and theoretica...
International audienceThe effect of red blood cells and the undulation of the endothelium on the she...
Proper functioning of white blood cells is not possible without their ability to adhere to vascular ...
The recruitment of leukocytes and subsequent rolling, activation, adhesion and transmigration are es...
ABsrRAcr As an idealized problem of the motion of blood in small capillary blood vessels, the low Re...
Summary A basic 2D numerical model has been developed to gain insight into the surface deformations ...