Accuracy and Reproducibility of CFD Predicted Wall Shear Stress Using 3D Ultrasound Images
Author:
Augst A. D.1, Barratt D. C.2, Hughes A. D.2, Glor F. P.1, Thom S. A. McG.2, Xu X. Y.1
Affiliation:
1. Department of Chemical Engineering and Chemical Technology, South Kensington Campus, Imperial College, London, SN7 2AZ 2. Department of Clinical Pharmacology and Therapeutics, 10th Floor QEQM Building, St. Mary’s Hospital, London W2 1NY, UK
Abstract
Computational fluid dynamics (CFD) flow simulation techniques have the potential to enhance our understanding of how haemodynamic factors are involved in atherosclerosis. Recently, 3D ultrasound has emerged as an alternative to other 3D imaging techniques, such as magnetic resonance angiography (MRA). The method can be used to generate realistic vascular geometry suitable for CFD simulations. In order to assess accuracy and reproducibility of the procedure from image acquisition to reconstruction to CFD simulation, a human carotid artery bifurcation phantom was scanned three times using 3D ultrasound. The geometry was reconstructed and flow simulations were carried out on the three sets as well as on a model generated using computer aided design (CAD) from the geometric information given by the manufacturer. It was found that the three reconstructed sets showed good reproducibility as well as satisfactory quantitative agreement with the CAD model. Analyzing two selected locations probably representing the ‘worst cases,’ accuracy comparing ultrasound and CAD reconstructed models was estimated to be between 7.2% and 7.7% of the maximum instantaneous WSS and reproducibility comparing the three scans to be between 8.2% and 10.7% of their average maximum.
Publisher
ASME International
Subject
Physiology (medical),Biomedical Engineering
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