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Bioimpacts. 2023;13(6): 488-494.
doi: 10.34172/bi.2023.23809
PMID: 38022381
PMCID: PMC10676527
Scopus ID: 85172780949
  Abstract View: 309
  PDF Download: 428
  Full Text View: 128

Original Article

Towards modeling of phonation and its recovery in unilateral vocal fold paralysis by fluid-structure interaction

MohammadAmin Naseri 1* ORCID logo, Seyed Esmail Razavi 2

1 Department of Mechanical Engineering, University of Texas at Dallas, Richardson, TX, USA
2 Faculty of Mechanical Engineering, University of Tabriz, Tabriz, Iran
*Corresponding Author: MohammadAmin Naseri, Email: mohammadamin.naseri@utdallas.edu

Abstract

Introduction: Vocal folds are responsible for sound generation. In unilateral vocal fold paralysis (UVFP), the recurrent laryngeal nerve, which controls the vocal folds, is paralyzed. Medialization laryngoplasty is a surgery in which an implant is inserted to push the paralyzed vocal fold to the centerline to recover phonation.
Methods: Here, a numerical simulation is used to calculate flow-related parameters to give insight into what happens in healthy and treated(implanted) vocal folds and their enhancement. In the present work, airflow over vocal folds is modeled considering fluid-structure interaction (FSI) and varying inlet pressure. The governing equations are discretized for fluid and solid domains and solved using the Galerkin finite element method. The boundary conditions for healthy and unilaterally paralyzed vocal folds were imposed to agree with real cases behavior.
Results: The results showed the effectiveness of medialization laryngoplasty in treating unilateral vocal fold paralysis concerning healthy vocal folds.
Conclusion: This simulation provided a better insight into treatment results for patient-specific cases.

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Submitted: 28 Apr 2021
Revision: 23 Mar 2022
Accepted: 29 Jun 2022
ePublished: 22 Jul 2023
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