Title :
Integration of computational and experimental methods in the study of cartilage mechanobiology
Author :
Raimondi, M.T. ; Boschetti, F. ; Fiore, G.B. ; Dubini, G. ; Falcone, L. ; Remuzzi, A. ; Marinoni, E. ; Marazzi, M. ; Pietrabissa, R.
Author_Institution :
Lab. of Biol. Struct. Mech., Politecnico di Milano, Milan, Italy
Abstract :
A fluid-induced shear is known to enhance chondrogenesis on animal cells. We have developed a computational fluid dynamic model of the flow through chondrocyte seeded scaffolds cultured inside a novel bioreactor in which the culture medium flows through the constructs´ microstructure. The median shear stress imposed to the cells in the bioreactor culture, as predicted by the CFD model, is 3·10-3 Pa at a flow rate of 0.5 ml/min corresponding to an inlet fluid velocity of 4.42·10-5 m/s. Providing a fluid-dynamic environment to the cells yielded significant differences in cell morphology.
Keywords :
biological tissues; biomechanics; cellular biophysics; computational fluid dynamics; physiological models; animal cells; bioreactor; bioreactor culture; cartilage mechanobiology study; cell morphology differences; chondrocyte seeded scaffolds; chondrogenesis enhancement; computational methods; construct microstructure; experimental methods; fluid-dynamic environment; inlet fluid velocity; median shear stress; Animal structures; Bioreactors; Cells (biology); Computational fluid dynamics; Hospitals; Hydrodynamics; Laboratories; Predictive models; Scanning electron microscopy; Stress;
Conference_Titel :
Molecular, Cellular and Tissue Engineering, 2002. Proceedings of the IEEE-EMBS Special Topic Conference on
Print_ISBN :
0-7803-7557-2
DOI :
10.1109/MCTE.2002.1175061
