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Bioimpacts. 2020;10(3): 169-175.
doi: 10.34172/bi.2020.21
PMID: 32793439
PMCID: PMC7416012
Scopus ID: 85078309726
  Abstract View: 1979
  PDF Download: 1310
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Original Research

Fluid-structure interaction of blood flow around a vein valve

Zahra Hajati 1 ORCID logo, Farhad Sadegh Moghanlou 1* ORCID logo, Mohammad Vajdi 1 ORCID logo, Seyed Esmail Razavi 2, Somaieh Matin 3 ORCID logo

1 Faculty of Engineering, University of Mohaghegh Ardabili, Ardabil, Iran
2 Faculty of Mechanical Engineering, University of Tabriz, Tabriz, Iran
3 Department of Internal Medicine, Ardabil University of Medical Sciences, Ardabil, Iran
*Corresponding Author: *Corresponding author: Farhad Sadegh Moghanlou, Email:, Email: F_moghanlou@uma.ac.ir

Abstract

Introduction: Venous valves are a type of one-way valves which conduct blood flow toward the heart and prevent its backflow. Any malfunction of these organs may cause serious problems in the circulatory system. Numerical simulation can give us detailed information and point to point data such as velocity, wall shear stress, and von Mises stress from veins with small diameters, as obtaining such data is almost impossible using current medical devices. Having detailed information about fluid flow and valves' function can help the treatment of the related diseases.
Methods: In the present work, the blood flow through a venous valve considering the flexibility of the vein wall and valve leaflets is investigated numerically. The governing equations of fluid flow and solid domain are discretized and solved by the Galerkin finite element method.
Results: The obtained results showed that the blood velocity increases from inlet to the leaflets and then decreases passing behind the valve. A pair of vortices and the trapped region was observed just behind the valves. These regions have low shear stresses and are capable of sediment formation.
Conclusion: The von Mises stress which is a criterion for the breakdown of solid materials was obtained. It was also observed that a maximum value occurred at the bottom of the leaflets.
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Submitted: 08 May 2019
Revision: 09 Nov 2019
Accepted: 14 Dec 2019
ePublished: 24 Mar 2020
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