11 research outputs found
Effects of dynamic cell culture conditions on 3D spatial reogarnization of MSCS/HUVECS spheroids in the context of bone tissue
We aim to observe the development and reorganization of MSCs and HUVECs in Pullulan/Dextran hydrogels supplied with nHAp under dynamic culture conditions in a perfusion bioreactor.Hydrogel poreux sous perfusion : modélisation et optimisation d'un modèle in vitro de reconstruction de défaut osseu
Co-culture of HUVECs and hMSCs in a Perfusion Bioreactor Ensures the Development of Viable Spheroids
International audienc
Effects of dynamic cell culture conditions on 3D spatial reogarnization of MSCS/HUVECS spheroids in the context of bone tissue
International audienceWe aim to observe the development and reorganization of MSCs and HUVECs in Pullulan/Dextran hydrogels supplied with nHAp under dynamic culture conditions in a perfusion bioreactor
Effects of dynamic cell culture conditions on 3D spatial reogarnization of MSCS/HUVECS spheroids in the context of bone tissue
International audienceWe aim to observe the development and reorganization of MSCs and HUVECs in Pullulan/Dextran hydrogels supplied with nHAp under dynamic culture conditions in a perfusion bioreactor
Co-culture of HUVECs and hMSCs in a Perfusion Bioreactor Ensures the Development of Viable Spheroids
International audienc
Perfused porous hydrogel scaffold: modeling hydrodynamics and species transport
International audiencePresent approach well suited to predict both (i) fluid flow in the macroporosity of the scaffold stack, (ii) the oxygen state experienced by the cells within the scaffolds Next: Co-culture of human umbilical vein endothelial cells and human mesenchymal stem cells Optical coherence tomography (OCT) to get a better spatial resolution and capture the microporosity of the porous hydrogel scaffolds Context LBM scheme and boundary conditions Custom-made perfusion bioreactor Hydrodynamics and oxygen transport
Perfused porous hydrogel scaffold: modeling hydrodynamics and species transport
International audiencePresent approach well suited to predict both (i) fluid flow in the macroporosity of the scaffold stack, (ii) the oxygen state experienced by the cells within the scaffolds Next: Co-culture of human umbilical vein endothelial cells and human mesenchymal stem cells Optical coherence tomography (OCT) to get a better spatial resolution and capture the microporosity of the porous hydrogel scaffolds Context LBM scheme and boundary conditions Custom-made perfusion bioreactor Hydrodynamics and oxygen transport
How hydrodynamics and species transport influence the 3D microenvironment of cells seeded in hydrogel scaffolds
International audienc
How hydrodynamics and species transport influence the 3D microenvironment of cells seeded in hydrogel scaffolds
International audienc