Biomechanical Simulation using Supercomputer for Predictive Medicine Shu TAKAGI Department of Mechanical Engineering & Department of Bioengineering The University of Tokyo K. Sugiyama (RIKEN), S. Ii (Osaka Univ.), K. Okita (Nihon Univ.) , T. Azuma ( Univ. Tokyo), Y. Matsumoto ( Univ. Tokyo )
14
Embed
Biomechanical Simulation using Supercomputer for Predictive Medicine
Author: Takagi, S. Presentation for the Biomedical & Mechatronics Workshop Forum UTokyo USP, 2013
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Biomechanical Simulation using Supercomputer for Predictive Medicine
Shu TAKAGIDepartment of Mechanical Engineering & Department of Bioengineering
The University of Tokyo
K. Sugiyama (RIKEN), S. Ii (Osaka Univ.), K. Okita (Nihon Univ.) , T. Azuma ( Univ. Tokyo), Y. Matsumoto ( Univ. Tokyo )
Multiscale modeling of initial stage of thromobosis
•Substance diffusion•Metabolic reaction and activation•Morphology change
Ht = 5.5 % Ht = 15.3 % Ht = 21.9 %
Adhesion of Platelets in a Shear Flow t 200 (ms) = 800 (s-1)
Tokai University: S. Goto, S. Shiozaki, N.TamuraRIKEN: S. Noda, H. Yokota, R. HimenoOsaka University: S. TakeuchiShanghai Jiaotong University: X. Gong, F. LiangPeking University: J. WuYork University: H. Huang
Acknowledgement
References: ・ Sugiyama, el al, J. Comput. Phys., Vol.230 (2010), pp.596-627.・ Takagi et al. J. Appl. Mech. Vol.79 (2011), 010911.・ Ii et al., Int. J. Numerical Method. in Fluids, Vol.65 (2011). pp.43-66.・ Ii et al., Comm. in Cmuput. Phys, Vol.12 (2013), pp.544-576.・ Shiozaki et al. JBSE, Vol.7 (2012), pp.275-283.・ Ii et al., J.Comput Phys, , Vol.231 (2012), pp.2328-2358.