Literature DB >> 20162466

Patient-specific computational fluid dynamics: structured mesh generation from coronary angiography.

Gianluca De Santis1, Peter Mortier, Matthieu De Beule, Patrick Segers, Pascal Verdonck, Benedict Verhegghe.   

Abstract

Patient-specific simulations are widely used to investigate the local hemodynamics within realistic morphologies. However, pre-processing and mesh generation are time consuming, operator dependent, and the quality of the resulting mesh is often suboptimal. Therefore, a semi-automatic methodology for patient-specific reconstruction and structured meshing of a left coronary tree from biplane angiography is presented. Seven hexahedral grids have been generated with the new method (50,000-3,200,000 cells) and compared to nine unstructured tetrahedral grids with prismatic boundary layer (150,000-3,100,000 cells). Steady-state blood flow simulation using Computational Fluid Dynamics (CFD) has been used to calculate the Wall Shear Stress (WSS). Our results (99 percentile, area-weighted and local WSS values along a line) demonstrate that hexahedral meshes with respect to tetrahedral/prismatic meshes converge better, and for the same accuracy of the result, six times less cells and 14 times less computational time are required. Hexahedral meshes are superior to tetrahedral/prismatic meshes and should be preferred for the calculation of the WSS.

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Year:  2010        PMID: 20162466     DOI: 10.1007/s11517-010-0583-4

Source DB:  PubMed          Journal:  Med Biol Eng Comput        ISSN: 0140-0118            Impact factor:   2.602


  25 in total

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  12 in total

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5.  Large-scale subject-specific cerebral arterial tree modeling using automated parametric mesh generation for blood flow simulation.

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7.  Hemodynamic impact of abdominal aortic aneurysm stent-graft implantation-induced stenosis.

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8.  High-quality conforming hexahedral meshes of patient-specific abdominal aortic aneurysms including their intraluminal thrombi.

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10.  Influence of the Accuracy of Angiography-Based Reconstructions on Velocity and Wall Shear Stress Computations in Coronary Bifurcations: A Phantom Study.

Authors:  Jelle T C Schrauwen; Antonios Karanasos; Nienke S van Ditzhuijzen; Jean-Paul Aben; Antonius F W van der Steen; Jolanda J Wentzel; Frank J H Gijsen
Journal:  PLoS One       Date:  2015-12-21       Impact factor: 3.240
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