Vocal fold dynamics in a synthetic self-oscillating model: Contact pressure and dissipated-energy dose

Motie-Shirazi, Mohsen; Zanartu, Matias; Peterson, Sean D.; Erath, Byron D.

Abstract

The energy dissipated during vocal fold (VF) contact is a predictor of phonotrauma. Difficulty measuring contact pressure has forced prior energy dissipation estimates to rely upon generalized approximations of the contact dynamics. To address this shortcoming, contact pressure was measured in a self-oscillating synthetic VF model with high spatiotemporal resolution using a hemilaryngeal configuration. The approach yields a temporal resolution of less than 0.26 ms and a spatial resolution of 0.254 mm in the inferior-superior direction. The average contact pressure was found to be 32% of the peak contact pressure, 60% higher than the ratio estimated in prior studies. It was found that 52% of the total power was dissipated due to collision. The power dissipated during contact was an order of magnitude higher than the power dissipated due to internal friction during the non-contact phase of oscillation. Both the contact pressure magnitude and dissipated power were found to be maximums at the mid anterior-posterior position, supporting the idea that collision is responsible for the formation of benign lesions, which normally appear at the middle third of the VF.

Más información

Título según WOS: Vocal fold dynamics in a synthetic self-oscillating model: Contact pressure and dissipated-energy dose
Título de la Revista: JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA
Volumen: 150
Número: 1
Editorial: ACOUSTICAL SOC AMER AMER INST PHYSICS
Fecha de publicación: 2021
Página de inicio: 478
Página final: 489
DOI:

10.1121/10.0005596

Notas: ISI