by Gabor Janiga, Philipp Berg, Oliver Beuing, Mathias Neugebauer, Rocco Gasteiger, Bernhard Preim, Georg Rose, Martin Skalej, Dominique Thevenin
Abstract:
The number of scientific publications dealing with stented intracranial aneurysms is rapidly increasing. Powerful computational facilities are now available; an accurate computational modeling of hemodynamics in patient-specific configurations is, however, still being sought. Furthermore, there is still no general agreement on the quantities that should be computed and on the most adequate analysis for intervention support. In this article, the accurate representation of patient geometry is first discussed, involving successive improvements. Concerning the second step, the mesh required for the numerical simulation is especially challenging when deploying a stent with very fine wire structures. Third, the description of the fluid properties is a major challenge. Finally, a founded quantitative analysis of the simulation results is obviously needed to support interventional decisions. In the present work, an attempt has been made to review the most important steps for a high-quality computational fluid dynamics computation of virtually stented intracranial aneurysms. In consequence, this leads to concrete recommendations, whereby the obtained results are not discussed for their medical relevance but for the evaluation of their quality. This investigation might hopefully be helpful for further studies considering stent deployment in patient-specific geometries, in particular regarding the generation of the most appropriate computational model.
Reference:
Recommendations for accurate numerical blood flow simulations of stented intracranial aneurysms (Gabor Janiga, Philipp Berg, Oliver Beuing, Mathias Neugebauer, Rocco Gasteiger, Bernhard Preim, Georg Rose, Martin Skalej, Dominique Thevenin), In Biomedizinische Technik/Biomedical Engineering, volume 58, 2013.
Bibtex Entry:
@article{janiga_recommendations_2013,
title = {Recommendations for accurate numerical blood flow simulations of stented intracranial aneurysms},
volume = {58},
issn = {1862278},
url = {http://www.degruyter.com/view/j/bmte.2013.58.issue-3/bmt-2012-0119/bmt-2012-0119.xml},
doi = {10.1515/bmt-2012-0119},
abstract = {The number of scientific publications dealing with stented intracranial aneurysms is rapidly increasing. Powerful computational facilities are now available; an accurate computational modeling of hemodynamics in patient-specific configurations is, however, still being sought. Furthermore, there is still no general agreement on the quantities that should be computed and on the most adequate analysis for intervention support. In this article, the accurate representation of patient geometry is first discussed, involving successive improvements. Concerning the second step, the mesh required for the numerical simulation is especially challenging when deploying a stent with very fine wire structures. Third, the description of the fluid properties is a major challenge. Finally, a founded quantitative analysis of the simulation results is obviously needed to support interventional decisions. In the present work, an attempt has been made to review the most important steps for a high-quality computational fluid dynamics computation of virtually stented intracranial aneurysms. In consequence, this leads to concrete recommendations, whereby the obtained results are not discussed for their medical relevance but for the evaluation of their quality. This investigation might hopefully be helpful for further studies considering stent deployment in patient-specific geometries, in particular regarding the generation of the most appropriate computational model.},
number = {3},
journal = {Biomedizinische Technik/Biomedical Engineering},
author = {Janiga, Gabor and Berg, Philipp and Beuing, Oliver and Neugebauer, Mathias and Gasteiger, Rocco and Preim, Bernhard and Rose, Georg and Skalej, Martin and Thevenin, Dominique},
year = {2013},
pages = {303}
}