AbstractA high-fidelity computational model using a 3D immersed boundary method is used to study platelet dynamics in whole blood. We focus on the 3D effects of the platelet-red blood cell (RBC) interaction on platelet margination and near-wall dynamics in a shear flow. We find that the RBC distribution in whole blood becomes naturally anisotropic and creates local clusters and cavities. A platelet can enter a cavity and use it as an express lane for a fast margination toward the wall. Once near the wall, the 3D nature of the platelet-RBC interaction results in a significant platelet movement in the transverse (vorticity) direction and leads to anisotropic platelet diffusion within the RBC-depleted zone or cell-free layer (CFL). We find tha...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
AbstractAbnormally high shear stresses encountered in vivo induce spontaneous activation of blood pl...
Thrombosis formation upon rupture or erosion of an atherosclerotic plaque can lead to occlusion of a...
AbstractComputational simulations using a two-dimensional lattice-Boltzmann immersed boundary method...
Hemostasis is a self-defensive mechanism that prevents injured blood vessels from excessive bleeding...
Cylindrical blood vessels, ellipsoid platelets and biconcave-shaped deformable erythrocytes (RBCs) a...
Cylindrical blood vessels, ellipsoid platelets and biconcave-shaped deformable erythrocytes (RBCs) a...
The influence of red blood cell (RBC) deformability in whole blood on platelet margination is invest...
AbstractBlood flows through vessels as a segregated suspension. Erythrocytes distribute closer to th...
International audienceBlood flows through vessels as a segregated suspension. Erythrocytes distribut...
Computational modeling and simulation is considered to study the concurrent multiscale/multiphysics ...
Despite the importance of platelets in the formation of a thrombus, their transport in complex flows...
Properties of blood cells and their interaction determine their distribution in flow. It i...
AbstractThe efficacy of platelet adhesion in shear flow is known to be substantially modulated by th...
Computer simulations were performed to study the transport of red blood cells and platelets in high ...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
AbstractAbnormally high shear stresses encountered in vivo induce spontaneous activation of blood pl...
Thrombosis formation upon rupture or erosion of an atherosclerotic plaque can lead to occlusion of a...
AbstractComputational simulations using a two-dimensional lattice-Boltzmann immersed boundary method...
Hemostasis is a self-defensive mechanism that prevents injured blood vessels from excessive bleeding...
Cylindrical blood vessels, ellipsoid platelets and biconcave-shaped deformable erythrocytes (RBCs) a...
Cylindrical blood vessels, ellipsoid platelets and biconcave-shaped deformable erythrocytes (RBCs) a...
The influence of red blood cell (RBC) deformability in whole blood on platelet margination is invest...
AbstractBlood flows through vessels as a segregated suspension. Erythrocytes distribute closer to th...
International audienceBlood flows through vessels as a segregated suspension. Erythrocytes distribut...
Computational modeling and simulation is considered to study the concurrent multiscale/multiphysics ...
Despite the importance of platelets in the formation of a thrombus, their transport in complex flows...
Properties of blood cells and their interaction determine their distribution in flow. It i...
AbstractThe efficacy of platelet adhesion in shear flow is known to be substantially modulated by th...
Computer simulations were performed to study the transport of red blood cells and platelets in high ...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
AbstractAbnormally high shear stresses encountered in vivo induce spontaneous activation of blood pl...
Thrombosis formation upon rupture or erosion of an atherosclerotic plaque can lead to occlusion of a...