© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in providing efficient gas transport. Erythrocytes have been extensively studied both experimentally and by mathematical modeling in recent years. However, understanding of how aggregation and deformability are regulated is limited. These properties of the erythrocyte are essential for the physiological functioning of the cell. In this work, we propose a novel mathematical model of the molecular system that controls the aggregation and deformability of the erythrocyte. This model is based on the experimental results of previously published studies. Our model suggests fundamentally new mechanisms that regulate aggregation and deformability in a la...
Human erythrocytes have an in vivo live span of about 120 days during which they undergo several phy...
The physiological functions of erythrocytes depend critically on their morphology, deformability, an...
The study of the erythrocyte morphology, interaction, and dynamics is essential to understand how se...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
AbstractHuman erythrocytes are highly specialized enucleate cells that are involved in providing eff...
The molecular organization of the membrane of the red blood cell controls cell morphology and functi...
Abstract:-- The mammalian erythrocyte after extruding primitive marginal bands and nucleus, attains ...
Many factors in the surrounding environment have been reported to influence erythrocyte deformabilit...
International audienceMany factors in the surrounding environment have been reported to influence er...
Red blood cells are flexible and oval biconcave disks, they lack a cell nucleus and their disk diame...
The erythrocyte (or red blood cell) sedimentation rate (ESR) is commonly interpreted as a measure of...
Cells exhibit a wide diversity of shapes and are subjected to constant remodeling, allowing for thei...
Human erythrocytes have an in vivo live span of about 120 days during which they undergo several phy...
Human erythrocytes have an in vivo live span of about 120 days during which they undergo several phy...
The physiological functions of erythrocytes depend critically on their morphology, deformability, an...
The study of the erythrocyte morphology, interaction, and dynamics is essential to understand how se...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
© 2015 The Authors. Human erythrocytes are highly specialized enucleate cells that are involved in p...
AbstractHuman erythrocytes are highly specialized enucleate cells that are involved in providing eff...
The molecular organization of the membrane of the red blood cell controls cell morphology and functi...
Abstract:-- The mammalian erythrocyte after extruding primitive marginal bands and nucleus, attains ...
Many factors in the surrounding environment have been reported to influence erythrocyte deformabilit...
International audienceMany factors in the surrounding environment have been reported to influence er...
Red blood cells are flexible and oval biconcave disks, they lack a cell nucleus and their disk diame...
The erythrocyte (or red blood cell) sedimentation rate (ESR) is commonly interpreted as a measure of...
Cells exhibit a wide diversity of shapes and are subjected to constant remodeling, allowing for thei...
Human erythrocytes have an in vivo live span of about 120 days during which they undergo several phy...
Human erythrocytes have an in vivo live span of about 120 days during which they undergo several phy...
The physiological functions of erythrocytes depend critically on their morphology, deformability, an...
The study of the erythrocyte morphology, interaction, and dynamics is essential to understand how se...