Multiscale simulation of blood flow in brain arteries with an aneurysm

Dmitry A. Fedosov; George Em Karniadakis; Joseph A. Insley; Kalyan Kumaran; Leopold Grinberg; Michael E. Papka; Vitali Morozov

arxiv: 1110.3092 · v1 · pith:5YOJ45RZnew · submitted 2011-10-13 · ⚛️ physics.flu-dyn · physics.bio-ph

Multiscale simulation of blood flow in brain arteries with an aneurysm

Leopold Grinberg , Vitali Morozov , Dmitry A. Fedosov , Joseph A. Insley , Michael E. Papka , Kalyan Kumaran , George Em Karniadakis This is my paper

classification ⚛️ physics.flu-dyn physics.bio-ph

keywords aneurysmdynamicsmultiscalesimulationsolveraggregationarteriesatomistic-based

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Interfacing atomistic-based with continuum-based simulation codes is now required in many multiscale physical and biological systems. We present the first results from coupled atomistic-continuum simulations on 190,000 processors. Platelet aggregation in the patient-specific model of an aneurysm has been modeled using a high-order spectral/hp element Navier-Stokes solver with a stochastic (coarse-grained) Molecular Dynamics solver based on Dissipative Particle Dynamics (DPD).

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Multiscale simulation of blood flow in brain arteries with an aneurysm

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