The Role of One-Dimensional Model-Generated Inter-Subject Variations in Systemic Properties on Wall Shear Stress Indices of Intracranial Aneurysms

The Role of One-Dimensional Model-Generated Inter-Subject Variations in Systemic Properties on Wall Shear Stress Indices of Intracranial Aneurysms

Variations in systemic properties of the arterial tree, such as aging-induced vessel stiffness, can alter the shape of pressure and flow waveforms. As a consequence, the hemodynamics around a cerebral aneurysm change, and therefore, also the corresponding in- and outlet boundary conditions (BCs) use...

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Published in:IEEE transactions on biomedical engineering Vol. 67; no. 4; pp. 1030 - 1039
Main Authors: Stevens, Raoul R. F., Donders, Wouter P., Quicken, Sjeng, van de Vosse, Frans N., Mess, Werner H., Delhaas, Tammo, Huberts, Wouter
Format: Journal Article
Language:English
Published: United States IEEE 01-04-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Adaptive generalised polynomial chaos expansion
Aging
Aging (artificial)
Aneurysm
Aneurysms
Blood flow
Blood vessels
Boundary conditions
cerebral aneurysms
Computational modeling
Computer simulation
Hemodynamics
One dimensional models
Prediction models
Properties (attributes)
Pulse propagation
pulse wave propagation model
Sensitivity analysis
Shear stress
Stiffness
Stress
Three-dimensional displays
Variation
Wall shear stresses
Wave propagation
Waveforms
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Summary:Variations in systemic properties of the arterial tree, such as aging-induced vessel stiffness, can alter the shape of pressure and flow waveforms. As a consequence, the hemodynamics around a cerebral aneurysm change, and therefore, also the corresponding in- and outlet boundary conditions (BCs) used for three-dimensional (3D) calculations of hemodynamic indices. In this study, we investigate the effects of variations in systemic properties on wall shear stress (WSS) indices of a cerebral aneurysm. We created a virtual patient database by varying systemic properties within physiological ranges. BCs for 3D-CFD simulations were derived using a pulse wave propagation model for each realization of the virtual database. WSS indices were derived from the 3D simulations and their variabilities quantified. Variations in BCs, caused by changes in systemic properties, yielded variabilities in the WSS indices that were of the same order of magnitude as differences in these WSS indices between ruptured and unruptured aneurysms. Sensitivity analysis showed that the systemic properties impacted both in- and outlet BCs simultaneously and altered the WSS indices. We conclude that the influence of variations in patient-specific systemic properties on WSS indices should be evaluated when using WSS indices in multidisciplinary rupture prediction models.
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ISSN:0018-9294
1558-2531
DOI:10.1109/TBME.2019.2928416