Characterization of flow reduction properties in an aneurysm due to a stent | Zendy

Miki Hirabayashi | Zendy; Makoto Ohta | Zendy; Daniel A. Rüfenacht | Zendy; Bastien Chopard | Zendy

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Characterization of flow reduction properties in an aneurysm due to a stent

Author(s) -

Miki Hirabayashi,

Makoto Ohta,

Daniel A. Rüfenacht,

Bastien Chopard

Publication year - 2003

Publication title -

physical review. e, statistical physics, plasmas, fluids, and related interdisciplinary topics

Language(s) - English

Resource type - Journals

eISSN - 1095-3787

pISSN - 1063-651X

DOI - 10.1103/physreve.68.021918

Subject(s) - stent , lattice boltzmann methods , aneurysm , blood flow , reduction (mathematics) , materials science , flow (mathematics) , biomedical engineering , radiology , computer science , mechanics , physics , medicine , mathematics , geometry

We consider a lattice Boltzmann simulation of blood flow in a vessel deformed by the presence of an aneurysm. Modern clinical treatments involve introducing a stent (a tubular mesh of wires) into the cerebral artery in order to reduce the flow inside the aneurysm and favor its spontaneous reabsorption. A crucial question is to design the stent with suitable porosity so as to produce the most effective flow reduction. We propose a stent positioning factor as a characterizing tool for stent pore design in order to describe the flow reduction effect and reveal the several flow reduction mechanisms using this effect.

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