Add to ORKGWe develop a simple mathematical model for forced flow of culture medium through a porous scaffold in a tissue- engineering bioreactor. Porous-walled hollow fibres penetrate the scaffold and act as additional sources of culture medium. The model, based on Darcy’s law, is used to examine the nutrient and shear-stress distributions throughout the scaffold. We consider several configurations of fibres and inlet and outlet pipes. Compared with a numerical solution of the full Navier–Stokes equations within the complex scaffold geometry, the modelling approach is cheap, and does not require knowledge of the detailed microstructure of the particular scaffold being used. The potential of this approach is demonstrated through quantification of the ...
International audienceOver the last decade hydrogels, and more recently porous hydrogels, have shown...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
To develop or engineer artificial tissues in tissue engineering, a detailed knowledge of the in vitr...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
Tissue engineering aims to regenerate, repair or replace organs or tissues which have become defecti...
Tissue engineering is an emerging field with the aim to produce artificial organs and tissues for tr...
Tissue engineering scaffolds combined with bioreactors are used to cultivate cells with the aim of ...
Perfusion bioreactors are known to exert shear stresses on cultured cells, leading to cell different...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
The growth of a cell population within a rigid porous scaffold in a perfusion bioreactor is studied,...
\u3cp\u3eIn bone tissue engineering experiments, fluid-induced shear stress is able to stimulate cel...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
AbstractTissue engineering aims to repair and regenerate damaged tissues by developing biological su...
International audienceOver the last decade hydrogels, and more recently porous hydrogels, have shown...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
To develop or engineer artificial tissues in tissue engineering, a detailed knowledge of the in vitr...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold i...
Tissue engineering aims to regenerate, repair or replace organs or tissues which have become defecti...
Tissue engineering is an emerging field with the aim to produce artificial organs and tissues for tr...
Tissue engineering scaffolds combined with bioreactors are used to cultivate cells with the aim of ...
Perfusion bioreactors are known to exert shear stresses on cultured cells, leading to cell different...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
The growth of a cell population within a rigid porous scaffold in a perfusion bioreactor is studied,...
\u3cp\u3eIn bone tissue engineering experiments, fluid-induced shear stress is able to stimulate cel...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
AbstractTissue engineering aims to repair and regenerate damaged tissues by developing biological su...
International audienceOver the last decade hydrogels, and more recently porous hydrogels, have shown...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
To develop or engineer artificial tissues in tissue engineering, a detailed knowledge of the in vitr...