Assessment of human left ventricle flow using statistical shape modelling and computational fluid dynamics

Journal article (2018)

Authors

S.S. Khalafvand ChemE/Transport Phenomena - AS
S. S. Khalafvand ChemE/Transport Phenomena - AS
Seyed Saeid Khalafvand ChemE/Transport Phenomena - AS
Jason Voorneveld Erasmus Medical Centre
J.D. Voorneveld Erasmus Medical Centre
J. D. Voorneveld Erasmus Medical Centre
Jason D. Voorneveld Erasmus Medical Centre
Aswin Muralidharan ChemE/Product and Process Engineering - AS
A. Muralidharan ChemE/Product and Process Engineering - AS
Frank Gijsen Erasmus Medical Centre
F.J.H. Gijsen Erasmus Medical Centre
F. J.H. Gijsen Erasmus Medical Centre
Frank J.H. Gijsen Erasmus Medical Centre
J. G. Bosch Erasmus Medical Centre
Johan G. Bosch Erasmus Medical Centre
Johan Bosch Erasmus Medical Centre
J.W. Bosch Erasmus Medical Centre
Johannes G. Bosch Erasmus Medical Centre
T. Van Walsum Erasmus Medical Centre
Theo Van Walsum Erasmus Medical Centre
Theo van Walsum Erasmus Medical Centre
T. van Walsum Erasmus Medical Centre
A. Haak Erasmus Medical Centre
Nico de Jong Erasmus Medical Centre
N. W. Jong Erasmus Medical Centre
Nico De Jong Erasmus Medical Centre
N. Jong Erasmus Medical Centre
N. de Jong Erasmus Medical Centre
Nico De Jong Erasmus Medical Centre
N. de De Jong Erasmus Medical Centre
Nicolaas De Jong Erasmus Medical Centre
Nicolaas Jong Erasmus Medical Centre
Nico De De Jong Erasmus Medical Centre
N. de de Jong Erasmus Medical Centre
N. de Jong Erasmus Medical Centre
Nico De de Jong Erasmus Medical Centre
N. W. de Jong Erasmus Medical Centre
Nicolaas de Jong Erasmus Medical Centre
N De Jong Erasmus Medical Centre
N. De Jong Erasmus Medical Centre
N. W. De Jong Erasmus Medical Centre
N de Jong Erasmus Medical Centre
Nico Jong Erasmus Medical Centre
N Jong Erasmus Medical Centre
S. Kenjeres ChemE/Transport Phenomena - AS
S Kenjeres ChemE/Transport Phenomena - AS
Sasa Kenjeres ChemE/Transport Phenomena - AS
Research Group
ChemE/Transport Phenomena (AS) (TU Delft)
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Published Date

2018

Language

English

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Faculty

Applied Sciences

Department

ChemE/Chemical Engineering

Research Group

ChemE/Transport Phenomena

Abstract

Blood flow patterns in the human left ventricle (LV) have shown relation to cardiac health. However, most studies in the literature are limited to a few patients and results are hard to generalize. This study aims to provide a new framework to generate more generalized insights into LV blood flow as a function of changes in anatomy and wall motion. In this framework, we studied the four-dimensional blood flow in LV via computational fluid dynamics (CFD) in conjunction with a statistical shape model (SSM), built from segmented LV shapes of 150 subjects. We validated results in an in-vitro dynamic phantom via time-resolved optical particle image velocimetry (PIV) measurements. This combination of CFD and the SSM may be useful for systematically assessing blood flow patterns in the LV as a function of varying anatomy and has the potential to provide valuable data for diagnosis of LV functionality.

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