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Outflow boundary conditions for 3D simulations of non-periodic blood flow and pressure fields in deformable arteries

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  • I.E. Vignon-Clementel
  • C.A. Figueroa
  • K.E. Jansen
  • C.A. Taylor

Abstract

The simulation of blood flow and pressure in arteries requires outflow boundary conditions that incorporate models of downstream domains. We previously described a coupled multidomain method to couple analytical models of the downstream domains with 3D numerical models of the upstream vasculature. This prior work either included pure resistance boundary conditions or impedance boundary conditions based on assumed periodicity of the solution. However, flow and pressure in arteries are not necessarily periodic in time due to heart rate variability, respiration, complex transitional flow or acute physiological changes. We present herein an approach for prescribing lumped parameter outflow boundary conditions that accommodate transient phenomena. We have applied this method to compute haemodynamic quantities in different physiologically relevant cardiovascular models, including patient-specific examples, to study non-periodic flow phenomena often observed in normal subjects and in patients with acquired or congenital cardiovascular disease. The relevance of using boundary conditions that accommodate transient phenomena compared with boundary conditions that assume periodicity of the solution is discussed.

Suggested Citation

  • I.E. Vignon-Clementel & C.A. Figueroa & K.E. Jansen & C.A. Taylor, 2010. "Outflow boundary conditions for 3D simulations of non-periodic blood flow and pressure fields in deformable arteries," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 13(5), pages 625-640.
    • Handle: RePEc:taf:gcmbxx:v:13:y:2010:i:5:p:625-640
    DOI: 10.1080/10255840903413565
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    Cited by:

    1. Xinzhou Xie & Yuanyuan Wang & Hongmin Zhu & Hu Zhou & Jingmin Zhou, 2013. "Impact of Coronary Tortuosity on Coronary Blood Supply: A Patient-Specific Study," PLOS ONE, Public Library of Science, vol. 8(5), pages 1-10, May.
    2. Chiara Corsini & Catriona Baker & Ethan Kung & Silvia Schievano & Gregory Arbia & Alessia Baretta & Giovanni Biglino & Francesco Migliavacca & Gabriele Dubini & Giancarlo Pennati & Alison Marsden & Ir, 2014. "An integrated approach to patient-specific predictive modeling for single ventricle heart palliation," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 17(14), pages 1572-1589, October.

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