In-silico cellular models of blood are invaluable to gain understanding about the many interesting properties that blood exhibits. However, numerical investigations that focus on the effects of cytoplasmic viscosity in these models are not very prevalent. We present a parallelised method to implement cytoplasmic viscosity for HemoCell, an open-source cellular model based on immersed boundary lattice Boltzmann methods, using an efficient ray-casting algorithm. The effects of the implementation are investigated with single-cell simulations focusing on the deformation in shear flow, the migration due to wall induced lift forces, the characteristic response time in periodic stretching and pair collisions between red blood cells and platelets. C...
Red blood cells (RBCs) in various flows exhibit a rich dynamics due their deformability and govern r...
Studies on the haemodynamics of human circulation are clinically and scientifically important. In or...
We present a computational framework for the simulation of blood flow with fully resolved red blood ...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
Many of the intriguing properties of blood originate from its cellular nature. Therefore, accurate m...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
The rheology of dense red blood cell suspensions is investigated via computer simulations based on t...
We investigated how non-Newtonian viscosity behavior affects the flow characteristics of blood cells...
\u3cp\u3eHuman blood can be approximated as a dense suspension of red blood cells in plasma. Here, w...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Red blood cells (RBCs) in various flows exhibit a rich dynamics due their deformability and govern r...
Studies on the haemodynamics of human circulation are clinically and scientifically important. In or...
We present a computational framework for the simulation of blood flow with fully resolved red blood ...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
Many of the intriguing properties of blood originate from its cellular nature. Therefore, accurate m...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
The rheology of dense red blood cell suspensions is investigated via computer simulations based on t...
We investigated how non-Newtonian viscosity behavior affects the flow characteristics of blood cells...
\u3cp\u3eHuman blood can be approximated as a dense suspension of red blood cells in plasma. Here, w...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Red blood cells (RBCs) in various flows exhibit a rich dynamics due their deformability and govern r...
Studies on the haemodynamics of human circulation are clinically and scientifically important. In or...
We present a computational framework for the simulation of blood flow with fully resolved red blood ...