Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood rheology. Diseases such as diabetes, sickle cell anemia, and malaria, as well as prolonged storage, may affect the mechanical properties of RBCs altering their hemodynamic behavior and leading to microvascular complications. However, the exact role of RBC deformability on microscale blood flow is not fully understood. In the present study, we extend our previous work on healthy RBC flows in bifurcating microchannels [Sherwood et al., “Viscosity and velocity distributions of aggregating and non-aggregating blood in a bifurcating microchannel,” Biomech. Model. Mechanobiol. 13, 259–273 (2014); Sherwood et al., “Spatial distributions of red blood...
Normal red blood cells (RBCs) are relatively simple in structure as they contain no major organelles...
Red blood cells (RBCs) are the most abundant cells in human blood. Remarkably RBCs deform and bridge...
Red blood cells (RBCs) possess a unique capacity for undergoing cellular deformation to navigate acr...
Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood ...
The non-Newtonian nature of blood arises from the presence of suspended formed elements which are th...
Red blood cell (RBC) deformability is an important haemorheological factor; it is impaired in many p...
Red blood cells (RBCs) undergo extensive deformation when travelling through the microcapillaries. D...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
Red blood cells (RBCs) are the major cellular component in blood and are highly deformable in their ...
Red blood cells (RBCs) perform essential functions in human body, such as gas exchange between blood...
In this work, we report on a systematic fluidodynamic investigation of red blood cell (RBC) suspensi...
Red blood cells (RBCs) are the most common type of blood cell, have a biconcave disk shape with diam...
International audienceIn this work, we compared the dynamics of motion in a linear shear flow of ind...
Red blood cell (RBC) aggregation is a multifaceted phenomenon, and whether it is generally beneficia...
The deformability of red blood cells flowing in microvessels is essential to maintain optimal blood ...
Normal red blood cells (RBCs) are relatively simple in structure as they contain no major organelles...
Red blood cells (RBCs) are the most abundant cells in human blood. Remarkably RBCs deform and bridge...
Red blood cells (RBCs) possess a unique capacity for undergoing cellular deformation to navigate acr...
Red blood cell (RBC) deformability is important for tissue perfusion and a key determinant of blood ...
The non-Newtonian nature of blood arises from the presence of suspended formed elements which are th...
Red blood cell (RBC) deformability is an important haemorheological factor; it is impaired in many p...
Red blood cells (RBCs) undergo extensive deformation when travelling through the microcapillaries. D...
Blood viscosity decreases with shear stress, a property essential for an efficient perfusion of the ...
Red blood cells (RBCs) are the major cellular component in blood and are highly deformable in their ...
Red blood cells (RBCs) perform essential functions in human body, such as gas exchange between blood...
In this work, we report on a systematic fluidodynamic investigation of red blood cell (RBC) suspensi...
Red blood cells (RBCs) are the most common type of blood cell, have a biconcave disk shape with diam...
International audienceIn this work, we compared the dynamics of motion in a linear shear flow of ind...
Red blood cell (RBC) aggregation is a multifaceted phenomenon, and whether it is generally beneficia...
The deformability of red blood cells flowing in microvessels is essential to maintain optimal blood ...
Normal red blood cells (RBCs) are relatively simple in structure as they contain no major organelles...
Red blood cells (RBCs) are the most abundant cells in human blood. Remarkably RBCs deform and bridge...
Red blood cells (RBCs) possess a unique capacity for undergoing cellular deformation to navigate acr...