Quantitative prediction of rolling dynamics of leukocyte-inspired microroller in blood flow
A magnetic microroller, inspired by leukocytes (also called white blood cells, WBCs) in the
microcirculatory system, represents a promising candidate for targeted drug delivery …
microcirculatory system, represents a promising candidate for targeted drug delivery …
Quantitative prediction of elongation deformation and shape relaxation of a red blood cell under tensile and shear stresses
C Wu, S Wang, X Qi, W Yan, X Li - Physics of Fluids, 2021 - pubs.aip.org
The characteristic time of stress relaxation is a key viscoelastic property of cell membrane
that controls time-dependent processes such as shape recovery. Although many …
that controls time-dependent processes such as shape recovery. Although many …
[HTML][HTML] Effects of membrane viscoelasticity on the red blood cell dynamics in a microcapillary
The mechanical properties of red blood cells (RBCs) play key roles in their biological
functions in microcirculation. In particular, RBCs must deform significantly to travel through …
functions in microcirculation. In particular, RBCs must deform significantly to travel through …
The biological vesicle elastohydrodynamic model of deformation of red blood cells in permeable microvessels
K Wang, C Zhang - … on Mechatronics and Machine Vision in …, 2022 - ieeexplore.ieee.org
The purpose of this paper is to investigate the deformation of red blood cells (RBCs) in
permeable microvessels by establishing the biological vesicle elastohydrodynamic model …
permeable microvessels by establishing the biological vesicle elastohydrodynamic model …