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Bioimpacts. 2023;13(4): 323-332.
doi: 10.34172/bi.2023.24097
PMID: 37645030
PMCID: PMC10460767
Scopus ID: 85168153678
  Abstract View: 510
  PDF Download: 302
  Full Text View: 99

Original Article

Comparative modeling of the mitral valve in normal and prolapse conditions

Seyed Esmail Razavi 1 ORCID logo, Amin Talebi 1* ORCID logo

1 Faculty of Mechanical Engineering, University of Tabriz, Tabriz, Iran
*Corresponding Author: Corresponding author: Amin Talebi, , Email: Amin.talebi96@ms.tabrizu.ac.ir

Abstract

Introduction: Computational modeling is one of the best non-invasive approaches to predicting the functional behavior of the mitral valve (MV) in health and disease. Mitral valve prolapse (MVP) due to partial or complete chordae tendineae rapture is the most common valvular disease and results in mitral regurgitation (MR).
Methods: In this study, Image-based fluid-structure interaction (FSI) models of the human MV are developed in the normal physiological and posterior leaflet prolapse conditions. Detailed geometry of the healthy human MV is derived from Computed Tomography imaging data. To provide prolapse condition, some chords attached to the posterior leaflet are removed from the healthy valve. Both normal and prolapsed valves are embedded separately in a straight tubular blood volume and simulated under physiological systolic pressure loads. The Arbitrary Lagrangian-Eulerian finite element method is used to accommodate the deforming intersection boundaries of the blood and MV.
Results: The stress values in the mitral components, and also flow patterns including the regurgitant flow rates are obtained and compared in both conditions through the simulation. These simulations have the potential to improve the treatment of patients with MVP, and also help surgeons to have more realistic insight into the dynamics of the MV in health and prolapse.
Conclusion: In the prolapse model, computational results show incomplete leaflet coaptation, higher MR severity, and also a significant increment of posterior leaflet stress compared to the normal valve. Moreover, it is found more deviation of the regurgitant jet towards the left atrium wall due to the posterior leaflet prolapse.
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Submitted: 20 Sep 2021
Revision: 24 Jun 2022
Accepted: 02 Jul 2022
ePublished: 07 Jan 2023
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