Coupling of the Deformation of a Model Endothelial Cell and a Steady Laminar Flow |
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Authors: | PIERRE WACHE GERARD MAURICE MICHEL LUCIUS JEAN-FRANCOIS STOLTZ XIONG WANG |
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Institution: | LEMTA - UMR 7563 CNRS/1NPL/UHF , 2. avenue de la Forét de Haye, BP160, Vandoeuvre-lés-Nancy, 54500, France |
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Abstract: | Abstract Mechanical forces influence endothelial cell's (EC) morphology and functions. In this work it was proposed a numerical analysis of steady laminar flows near a modelled monolayer of elastic ECs in order to determine the local distributions of mechanical forces on the surface and inside the cell. Numerical results showed that the flow induced non uniform mechanical stresses on cell surface and led to a cell deformation. These numerical results were compared with experimental measurements of the deformation of cultured human aortic endothelial cells under flow. It will be interesting to study eventual correlations between the distributions of biological receptors (cytoskeleton, adhesion molecules, etc.) and that of the non-uniform mechanical forces. |
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Keywords: | Endothelial cell Periodic flow Deformation Shear stress Numerical computation |
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