This study will continue to study physiological properties of the larynx, as they are affected by different disorders, and relate these properties to acoustic and perceptual measures of the sounds produced. The phonation from normal female voices will be studied to compare with data from male voices. Phonation from patients with laryngeal paresis associated with central nervous system disease will be studied, for comparison with data from patients with peripheral laryngeal nerve injury. Phonation of patients with Parkinson's disease will be examined for comparison with data from patients with similar laryngeal postural abnormalities. Phonatory properties that are associated with hyperkinetic movement disorders will be investigated, in order to provide a better description of the effects of these dysfunctions of the vibratory physiology of the vocal folds. The physiological properties to be investigated include laryngeal configuration as observed through fiberoptic and stroboscopic techniques, glottal area and vocal fold contact area as reflected by glottography, and aerodynamic measures of glottal air flow and estimated sub-glottal pressure. The acoustic analyses include measures of period-to-period perturbation in duration and amplitude, spectral balance such as the energy in the first format compared to that in the fundamental, and measures of signal vs. noise. Perceptual measures involve the rating of harshness, breathiness, strained quality, and instability. The major goals of this project include demonstration of the feasibility of clinical applications of glottography, understanding of relationships among the measures employed, description of the details of vibratory dysfunctions that are associated with various phonatory disorders, and understanding of the implications of these data regarding normal neuromuscular control and vibratory physiology of the larynx. It is anticipated that the data will be useful for generation of hypotheses regarding normal neuromotor control of laryngeal function voice production.
Tran, Q T; Berke, G S; Gerratt, B R et al. (1993) Measurement of Young's modulus in the in vivo human vocal folds. Ann Otol Rhinol Laryngol 102:584-91 |
Kreiman, J; Gerratt, B R; Precoda, K et al. (1992) Individual differences in voice quality perception. J Speech Hear Res 35:512-20 |
Shindo, M L; Hanson, D G (1990) Geriatric voice and laryngeal dysfunction. Otolaryngol Clin North Am 23:1035-44 |
Hanson, D G; Gerratt, B R; Berke, G S (1990) Frequency, intensity, and target matching effects on photoglottographic measures of open quotient and speed quotient. J Speech Hear Res 33:45-50 |
Berke, G S; Hanson, D G; Gerratt, B R et al. (1990) The effect of air flow and medial adductory compression on vocal efficiency and glottal vibration. Otolaryngol Head Neck Surg 102:212-8 |
Kreiman, J; Gerratt, B R; Precoda, K (1990) Listener experience and perception of voice quality. J Speech Hear Res 33:103-15 |
Ward, P H; Hanson, D G; Gerratt, B R et al. (1989) Current and future horizons in laryngeal and voice research. Ann Otol Rhinol Laryngol 98:145-52 |
Berke, G S; Moore, D M; Gerratt, B R et al. (1989) The effect of recurrent laryngeal nerve stimulation on phonation in an in vivo canine model. Laryngoscope 99:977-82 |
Gerratt, B R; Hanson, D G; Berke, G S (1988) Laryngeal configuration associated with glottography. Am J Otolaryngol 9:173-9 |
Hanson, D G; Gerratt, B R; Karin, R R et al. (1988) Glottographic measures of vocal fold vibration: an examination of laryngeal paralysis. Laryngoscope 98:541-9 |