The effect of swelling on vocal fold kinematics and dynamics

Deng, Jonathan J. J.; Erath, Byron D. D.; Zanartu, Matias; Peterson, Sean D. D.

Abstract

Swelling in the vocal folds is caused by the local accumulation of fluid, and has been implicated as a phase in the development of phonotraumatic vocal hyperfunction and related structural pathologies, such as vocal fold nodules. It has been posited that small degrees of swelling may be protective, but large amounts may lead to a vicious cycle wherein the engorged folds lead to conditions that promote further swelling, leading to pathologies. As a first effort to explore the mechanics of vocal fold swelling and its potential role in the etiology of voice disorders, this study employs a finite-element model with swelling confined to the superficial lamina propria, which changes the volume, mass, and stiffness of the cover layer. The impacts of swelling on a number of vocal fold kinematic and damage measures, including von Mises stress, internal viscous dissipation, and collision pressure, are presented. Swelling has small but consistent effects on voice outputs, including a reduction in fundamental frequency with increasing swelling (10 Hz at 30 % swelling). Average von Mises stress decreases slightly for small degrees of swelling but increases at large magnitudes, consistent with expectations for a vicious cycle. Both viscous dissipation and collision pressure consistently increase with the magnitude of swelling. This first effort at modeling the impact of swelling on vocal fold kinematics, kinetics, and damage measures highlights the complexity with which phonotrauma can influence performance metrics. Further identification and exploration of salient candidate measures of damage and refined studies coupling swelling with local phonotrauma are expected to shed further light on the etiological pathways of phonotraumatic vocal hyperfunction.

Más información

Título según WOS: ID WOS:001025550900001 Not found in local WOS DB
Título de la Revista: BIOMECHANICS AND MODELING IN MECHANOBIOLOGY
Volumen: 22
Número: 6
Editorial: SPRINGER HEIDELBERG
Fecha de publicación: 2023
Página de inicio: 1873
Página final: 1889
DOI:

10.1007/s10237-023-01740-3

Notas: ISI