Shear-induced platelet margination in a microchannel

Zhao, Hong Shi; Shaqfeh, Eric S G

doi:10.1103/PhysRevE.83.061924

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Shear-induced platelet margination in a microchannel

Author(s): Hong Zhao , Eric S. G. Shaqfeh

Publication date (Print): June 30 2011

Journal: Physical Review E

Publisher: American Physical Society (APS)

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Most cited references 19

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Boundary Integral and Singularity Methods for Linearized Viscous Flow

C Pozrikidis (1992)

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The shear-induced migration of particles in concentrated suspensions

David Leighton, Andreas Acrivos (1987)

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Shape transitions of fluid vesicles and red blood cells in capillary flows.

Hiroshi Noguchi, Gerhard Gompper (2005)

The dynamics of fluid vesicles and red blood cells (RBCs) in cylindrical capillary flow is studied by using a three-dimensional mesoscopic simulation approach. As flow velocity increases, a model RBC is found to transit from a nonaxisymmetric discocyteto an axisymmetric parachute shape (coaxial with the flow axis), while a fluid vesicle is found to transit from a discocyte to a prolate ellipsoid. Both shape transitions reduce the flow resistance. The critical velocities of the shape transitions are linearly dependent on the bending rigidity and on the shear modulus of the membrane. Slipper-like shapes of the RBC model are observed around the transition velocities. Our results are in good agreement with experiments on RBCs.