Red blood cell (RBC) aggregation affects significantly the flow of blood at low shear rates. Increased RBC aggregation is associated with various pathological conditions; hence an accurate quantification and better understanding of the phenomenon is important. The present study aims to improve understanding of the effect of dynamic flow conditions on aggregate formation; whole blood samples from healthy volunteers, adjusted at 0.45 haematocrit were tested in different flow conditions with a plate-plate optical shearing system, image analysis, and a double-walled Couette rheometric cell. Results are presented in terms of aggregation index Aa, aggregate size index As and number of aggregates, which are shown to vary with shear rate gamma and ...
The spatial characteristics of blood viscosity were investigated by combining a newly developed cons...
Abstract. Changes in the microstruture of blood caused by the red blood cell aggregation phenomenon ...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
Red blood cells (RBCs) are the most abundant cells in human blood. Remarkably RBCs deform and bridge...
Red blood cells (RBCs) are the most abundant cells in human blood, representing 40 to 45% of the blo...
i.e., the rise in apparent viscosity at low flow, was believed to be a result of reversible aggregat...
In the present study electro-rheology (Contraves LS30 viscometer-based system) and optical shearing ...
Red Blood Cells (RBCs) or erythrocytes tend to form chain-like aggregates under low shear rate calle...
25-31The influence of red blood cell (RBC) aggregation on blood flow in vivo has been under debate s...
A balance method was used to investigate the viscometric behavior and aggregation properties of bloo...
Red blood cells (RBC) aggregate to form two- and three-dimensional structures when suspended in aque...
Red Blood Cell aggregates flowing dynamically in a two fluid flow shearing system suspended at 5, 10...
Shear stress is known to induce platelet activation and aggregation. The red blood cell (RBC) aggreg...
Red blood cells (RBC) aggregate to form two- and three-dimensional structures when suspended in aque...
The effect of erythrocyte aggregation on blood viscosity and microcirculatory flow is a poorly under...
The spatial characteristics of blood viscosity were investigated by combining a newly developed cons...
Abstract. Changes in the microstruture of blood caused by the red blood cell aggregation phenomenon ...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
Red blood cells (RBCs) are the most abundant cells in human blood. Remarkably RBCs deform and bridge...
Red blood cells (RBCs) are the most abundant cells in human blood, representing 40 to 45% of the blo...
i.e., the rise in apparent viscosity at low flow, was believed to be a result of reversible aggregat...
In the present study electro-rheology (Contraves LS30 viscometer-based system) and optical shearing ...
Red Blood Cells (RBCs) or erythrocytes tend to form chain-like aggregates under low shear rate calle...
25-31The influence of red blood cell (RBC) aggregation on blood flow in vivo has been under debate s...
A balance method was used to investigate the viscometric behavior and aggregation properties of bloo...
Red blood cells (RBC) aggregate to form two- and three-dimensional structures when suspended in aque...
Red Blood Cell aggregates flowing dynamically in a two fluid flow shearing system suspended at 5, 10...
Shear stress is known to induce platelet activation and aggregation. The red blood cell (RBC) aggreg...
Red blood cells (RBC) aggregate to form two- and three-dimensional structures when suspended in aque...
The effect of erythrocyte aggregation on blood viscosity and microcirculatory flow is a poorly under...
The spatial characteristics of blood viscosity were investigated by combining a newly developed cons...
Abstract. Changes in the microstruture of blood caused by the red blood cell aggregation phenomenon ...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....