Title :
Prediction of shear stress distribution throughout 3D bone scaffold in perfusion environment
Author :
Yao, Yuan ; Yu, Yongwei ; Guo, Jun ; Qian, Yi ; Wang, Jiawei
Author_Institution :
Rapid Manuf. Eng. Center, Shanghai, China
Abstract :
In tissue engineering, mechanical stimuli play an important role in the cell proliferation process. This paper developed a 3D model to analyze the shear stress distribution in porous scaffold dynamically. A series of 3D scaffolds with different porosity level (60%~80%) were constructed to generate a large amount of shear stress distributions in the CFD tool. The simulations revealed that average shear stress is linear with velocity and the porosity has a strong influence of average shear stress. A linear prediction model is built on the analyzing data, which can demonstrate relationships between shear stress distribution on the inter surface of the 3D scaffold and the perfusion conditions.
Keywords :
biomechanics; bone; computational fluid dynamics; haemorheology; tissue engineering; 3D bone scaffold; CFD tool; computational fluid dynamics; linear prediction model; perfusion conditions; perfusion environment; porosity level; porous scaffold; shear stress distribution; tissue engineering; Atmospheric modeling; Bioreactors; Bones; Computational fluid dynamics; Computational modeling; Geometry; Image reconstruction; Predictive models; Solid modeling; Stress; Bone scaffold; CFD; Perfusion bioreactor; Porosity; Shear stress distribution;
Conference_Titel :
Image Analysis and Signal Processing (IASP), 2010 International Conference on
Conference_Location :
Zhejiang
Print_ISBN :
978-1-4244-5554-6
Electronic_ISBN :
978-1-4244-5556-0
DOI :
10.1109/IASP.2010.5476165
