Three-dimensional numerical simulation of a failed coronary stent implant at different degrees of residual stenosis. Part II: Apparent viscosity and wall permeability
Date
2017-03-27
Authors
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Publisher
Taylor and Francis
Department
Type
Article
ISSN
1040-7782
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Citation
Boghi A, Di Venuta I, Gori F, Three-dimensional numerical simulation of a failed coronary stent implant at different degrees of residual stenosis. Part II: Apparent viscosity and wall permeability, Numerical heat transfer, Part A: applications, Volume 71, Issue 6, Pages 653 – 665.
Abstract
The influence of the degree of residual stenosis (DOR) on the hemodynamics inside coronary arteries is investigated through three-dimensional (3D) numerical simulations. The vascular wall permeability is investigated and the effect of the non-Newtonian viscosity discussed. The results agree in predicting an abrupt increase in wall permeability above 45% DOR, indicating that the implant could lead to a massive restenosis. This behavior is considered to be due to the shift of the regions involved by low and oscillatory wall shear stress (WSS), from the zone adjacent to the struts toward the center of the stent meshes.
Description
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Keywords
stent, blood viscosity, Optical Density, Relative Residence Time
Rights
Attribution-NonCommercial 4.0 International