The remarkable deformability of red blood cells (RBCs) depends on the viscoelasticity of the plasma membrane and cell contents and the surface area to volume (SA:V) ratio; however, it remains unclear which of these factors is the key determinant for passage through small capillaries. We used a microfluidic device to examine the traversal of normal, stiffened, swollen, parasitised and immature RBCs. We show that dramatic stiffening of RBCs had no measurable effect on their ability to traverse small channels. By contrast, a moderate decrease in the SA:V ratio had a marked effect on the equivalent cylinder diameter that is traversable by RBCs of similar cellular viscoelasticity. We developed a finite element model that provides a coherent rati...
The high red blood cell (RBC) deformability observed in vivo is essential to ensure optimal gas exch...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood ...
Red blood cells (RBCs) perform essential functions in human body, such as gas exchange between blood...
Red blood cells (RBCs) are the most common type of blood cell, have a biconcave disk shape with diam...
Red Blood Cells (RBCs) exhibit different types of motions and different deformed shapes, when they m...
Previous work demonstrated that human red cells can be drawn into cylindrical glass micropipettes of...
Human red blood cells (RBCs) need to deform in order to pass through capillaries in human vasculatur...
Human red blood cells (RBCs) need to deform in order to pass through capillaries in human vasculatur...
Human red blood cells (RBCs) are subjected to high viscous shear stress, especially during microcirc...
Red blood cells (RBCs) undergo extensive deformation when travelling through the microcapillaries. D...
Red blood cells (RBCs) possess a unique capacity for undergoing cellular deformation to navigate acr...
In this work, we report on a systematic fluidodynamic investigation of red blood cell (RBC) suspensi...
Single human red blood cells suspended in buffered Ringer's solution were rapidly drawn, at recorded...
The deformability of a red blood cell (RBC) is one of the most important biological parameters affec...
The high red blood cell (RBC) deformability observed in vivo is essential to ensure optimal gas exch...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood ...
Red blood cells (RBCs) perform essential functions in human body, such as gas exchange between blood...
Red blood cells (RBCs) are the most common type of blood cell, have a biconcave disk shape with diam...
Red Blood Cells (RBCs) exhibit different types of motions and different deformed shapes, when they m...
Previous work demonstrated that human red cells can be drawn into cylindrical glass micropipettes of...
Human red blood cells (RBCs) need to deform in order to pass through capillaries in human vasculatur...
Human red blood cells (RBCs) need to deform in order to pass through capillaries in human vasculatur...
Human red blood cells (RBCs) are subjected to high viscous shear stress, especially during microcirc...
Red blood cells (RBCs) undergo extensive deformation when travelling through the microcapillaries. D...
Red blood cells (RBCs) possess a unique capacity for undergoing cellular deformation to navigate acr...
In this work, we report on a systematic fluidodynamic investigation of red blood cell (RBC) suspensi...
Single human red blood cells suspended in buffered Ringer's solution were rapidly drawn, at recorded...
The deformability of a red blood cell (RBC) is one of the most important biological parameters affec...
The high red blood cell (RBC) deformability observed in vivo is essential to ensure optimal gas exch...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood ...