Journal article
Endothelial shear stress 5 years after implantation of a coronary bioresorbable scaffold
V Thondapu, E Tenekecioglu, EKW Poon, C Collet, R Torii, CV Bourantas, C Chin, Y Sotomi, H Jonker, J Dijkstra, E Revalor, F Gijsen, Y Onuma, A Ooi, P Barlis, PW Serruys
European Heart Journal | OXFORD UNIV PRESS | Published : 2018
Abstract
Aims As a sine qua non for arterial wall physiology, local hemodynamic forces such as endothelial shear stress (ESS) may influence long-term vessel changes as bioabsorbable scaffolds dissolve. The aim of this study was to perform serial computational fluid dynamic (CFD) simulations to examine immediate and long-term haemodynamic and vascular changes following bioresorbable scaffold placement. Methods and results Coronary arterial models with long-term serial assessment (baseline and 5 years) were reconstructed through fusion of intravascular optical coherence tomography and angiography. Pulsatile non-Newtonian CFD simulations were performed to calculate the ESS and relative blood viscosity. ..
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Grants
Awarded by Abbott Vascular
Funding Acknowledgements
This work has been partially supported by the Victorian Life Sciences Computation Initiative (VLSCI grant number VR0210) on its Peak Computing Facility at the University of Melbourne, an initiative of the Victorian Government, Australia; the Australian Research Council through ARC Linkage Project LP120100233; and Abbott Vascular. TUBITAK (The Scientific Council of Turkey to E.T.).