Three-dimensional numerical simulation of the fluid dynamics in a coronary stent
Three-dimensional numerical simulation of the fluid dynamics in a coronary stent
Stents are commonly used to restore blood flow in patients with severe coronary artery disease. Local hemodynamic variables, as wall shear stress, have an important role in the restenosis and their distribution depends on the stent geometry. The objective of the present study is to carry out CFD simulations in a realistic 3D geometry of a coronary stent in physiological conditions. A comparison is performed between two reconstructed stents, made of 12 rings and similar to the real coronary ones, which differ by the position of the struts, where the first type is with closed cells and the second one with open cells. The artery is modeled as a cylinder with rigid walls and the blood is assumed as incompressible Newtonian fluid in laminar flow with constant physical properties. The commercial computational fluid dynamic code FLUENT is used with a mesh composed of non uniform tetrahedrons. The simulations are performed in steady and unsteady state. Wall shear stresses, WSS, as well as its time variations, are investigated in unsteady state with the conclusion that the stent with closed cells have a better fluid dynamic behavior.
407-411
The American Society of Mechanical Engineers
Gori, F.
f7e76614-37d8-4c3b-b7b0-8c6603a4515f
Boghi, A.
54a72da6-c8a2-468c-9773-897efac0638f
Amitrano, M.
f241ef57-d53f-47e9-af70-75d6e3f58581
2010
Gori, F.
f7e76614-37d8-4c3b-b7b0-8c6603a4515f
Boghi, A.
54a72da6-c8a2-468c-9773-897efac0638f
Amitrano, M.
f241ef57-d53f-47e9-af70-75d6e3f58581
Gori, F., Boghi, A. and Amitrano, M.
(2010)
Three-dimensional numerical simulation of the fluid dynamics in a coronary stent.
In Proceedings of the ASME International Mechanical Engineering Congress and Exposition 2009, IMECE 2009.
vol. 2,
The American Society of Mechanical Engineers.
.
(doi:10.1115/IMECE2009-10301).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Stents are commonly used to restore blood flow in patients with severe coronary artery disease. Local hemodynamic variables, as wall shear stress, have an important role in the restenosis and their distribution depends on the stent geometry. The objective of the present study is to carry out CFD simulations in a realistic 3D geometry of a coronary stent in physiological conditions. A comparison is performed between two reconstructed stents, made of 12 rings and similar to the real coronary ones, which differ by the position of the struts, where the first type is with closed cells and the second one with open cells. The artery is modeled as a cylinder with rigid walls and the blood is assumed as incompressible Newtonian fluid in laminar flow with constant physical properties. The commercial computational fluid dynamic code FLUENT is used with a mesh composed of non uniform tetrahedrons. The simulations are performed in steady and unsteady state. Wall shear stresses, WSS, as well as its time variations, are investigated in unsteady state with the conclusion that the stent with closed cells have a better fluid dynamic behavior.
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Published date: 2010
Venue - Dates:
2009 ASME International Mechanical Engineering Congress and Exposition, , Lake Buena Vista, United States, 2009-11-13 - 2009-11-19
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Local EPrints ID: 421747
URI: http://eprints.soton.ac.uk/id/eprint/421747
PURE UUID: 03241570-55d6-4e42-8458-4ab8e4b902e0
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Date deposited: 26 Jun 2018 16:30
Last modified: 15 Mar 2024 20:21
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Author:
F. Gori
Author:
M. Amitrano
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