Add to ORKGNumerical calculations are used to analyse the problem of laminar flow of an incompressible fluid flow over a three-dimensional geometry that approximates a single endothelial cell. These calculations model flow conditions around the cell geometry providing a description of flow field with details that would be difficult to measure or visualise experimentally. Calculations have been carried out for different cell aspect ratios and cell height to length ratios. Maximum wall shear stress on the cell top surface decreases with increasing l/h ratio of the cell. Maximum wall shear stress on the cell top surface increases with increasing Aspect ratio (l/w ratio) of the cell
Mathematical analysis of the the flow field over the glycocalyx located on the endothelial cells (EC...
Cancer cells (CC) alter local hemodynamics in their vicinity which will influence the function of en...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
Numerical calculations are used to analyse the problem of laminar flow of an incompressible fluid fl...
Wall shear stress acting on arterial walls is an important hemodynamic force determining vessel heal...
The endothelium is a thin layer of endothelial cells that line the interior surface of an artery. Du...
AbstractThe vascular endothelium is a cellular monolayer that lines the arterial walls. It plays a v...
Several devices which can apply biomechanical stresses, such as shear stress, to living cells are av...
Parallel plate chambers are frequently used to examine the response of biological cells to a constan...
This thesis investigates the dynamics of cells in linear shear flow near a plane wall. The first par...
A parallel plate chamber in a flow system has been designed to study the effects of fluid shear stre...
Summary A basic 2D numerical model has been developed to gain insight into the surface deformations ...
A parallel plate flow chamber-based flow system is a flow system that allows for microscopic observa...
Biological cells are constantly exposed to fluid forces inside the body. These fluid forces aid in c...
Perfusion bioreactors have been proved to be an impartible part of vascular tissue engineering due t...
Mathematical analysis of the the flow field over the glycocalyx located on the endothelial cells (EC...
Cancer cells (CC) alter local hemodynamics in their vicinity which will influence the function of en...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...
Numerical calculations are used to analyse the problem of laminar flow of an incompressible fluid fl...
Wall shear stress acting on arterial walls is an important hemodynamic force determining vessel heal...
The endothelium is a thin layer of endothelial cells that line the interior surface of an artery. Du...
AbstractThe vascular endothelium is a cellular monolayer that lines the arterial walls. It plays a v...
Several devices which can apply biomechanical stresses, such as shear stress, to living cells are av...
Parallel plate chambers are frequently used to examine the response of biological cells to a constan...
This thesis investigates the dynamics of cells in linear shear flow near a plane wall. The first par...
A parallel plate chamber in a flow system has been designed to study the effects of fluid shear stre...
Summary A basic 2D numerical model has been developed to gain insight into the surface deformations ...
A parallel plate flow chamber-based flow system is a flow system that allows for microscopic observa...
Biological cells are constantly exposed to fluid forces inside the body. These fluid forces aid in c...
Perfusion bioreactors have been proved to be an impartible part of vascular tissue engineering due t...
Mathematical analysis of the the flow field over the glycocalyx located on the endothelial cells (EC...
Cancer cells (CC) alter local hemodynamics in their vicinity which will influence the function of en...
Endothelial cells are key units in the regulatory biological process of blood vessels. They represen...