|
|||||
|
|
CFD simulation of flow through heart: a perspective review |
|
| Authors: | R Balossino G Pennati F Migliavacca L Formaggia A Veneziani M Tuveri |
| Institution: | 1. LaBS – Laboratory of Biological Structure Mechanics, Department of Structural Engineering , Politecnico di Milano , Milan, Italy rossella.balossino@polimi.it;3. LaBS – Laboratory of Biological Structure Mechanics, Department of Structural Engineering , Politecnico di Milano , Milan, Italy;4. MOX – Modeling and Scientific Computing, Department of Mathematics “F. Brioschi” , Politecnico di Milano , Milan, Italy;5. Faculty of Medicine and Surgery , University of Cagliari , Cagliari, Italy |
| Abstract: | This work addresses the problem of prescribing proper boundary conditions at the artificial boundaries that separate the vascular district from the remaining part of the circulatory system. A multiscale (MS) approach is used where the Navier–Stokes equations for the district of interest are coupled to a non-linear system of ordinary differential equations which describe the circulatory system. This technique is applied to three 3D models of a carotid bifurcation with increasing stenosis resembling three phases of a plaque growth. The results of the MS simulations are compared to those obtained by two stand-alone models. The MS shows a great flexibility in numerically predicting the haemodynamic changes due to the presence of a stenosis. Nonetheless, the results are not significantly different from a stand-alone approach where flows derived by the MS without stenosis are imposed. This is a consequence of the dominant role played by the outside districts with respect to the stenosis resistance. |
| Keywords: | multiscale models haemodynamics Navier–Stokes equations carotid artery bifurcation stenosis boundary conditions |