RESUMO
PURPOSE: This study set out to investigate whether there existed a correlation between auditory-perceptual judgment of resonant voice and the physical vibration in the facial bone. The magnitude of bone vibration in the facial bone during different types of voice production (resonant vs nonresonant vs strained voices) was also investigated. METHOD: Thirty-six healthy normal subjects produced three types of phonations: resonant voice, habitual nonresonant voice, and strained voice. A piezoelectric accelerometer was used to measure the vibrations in the nasal bridge and the perilaryngeal area during the phonation. Seventy-two selected nasal sounds (/ma/) produced under the resonant voice condition by these speakers were rated by two experienced speech pathologists on the magnitude of auditory-perceptual resonance using an 11-point equal-appearing interval scale. The magnitude of bone vibration was also compared across the three voice types. RESULTS: Significant moderate correlations were found between the physical bone vibration and the auditory-perceptual rating of resonant voice at the nasal bridge of the facial bone (0.6). Resonant voice, compared with the strained and nonresonant voice types, was also found to have a significant increase in the magnitude of facial bone vibration. Nasal stimuli, compared with nonnasal stimuli, facilitated greater bone vibration during resonant voice production. CONCLUSION: Piezoelectric accelerometer, as an objective quantitative tool, measures reliably the extent of bone vibration in resonant voice phonation. It is a useful tool for determining the bone vibration in relation to resonant voice.