The Pitch Rise Paradigm: A New Task for Real-Time Endoscopy of Non-Stationary Phonation

As standard stroboscopy is restricted to the recording of periodic vocal fold vibrations, observations of non-stationary laryngeal mechanisms demand real-time recording systems, the most advanced being the high-speed video technique. It allows the registration of laryngeal parameters during a variation of the fundamental frequency. The aim of this study was to compare amplitude and frequency parameters of vocal fold vibration during stationary and non-stationary phonation, i.e. a monotonous pitch rise. Twenty-nine young female adults with no incidence of voice disorders were examined while performing two different phonation tasks: sustained phonation with a constant frequency and a monotonous pitch rise. Endoscopic recordings and the acoustic signals were acquired simultaneously. Both acoustic and laryngeal parameters were derived for short time intervals of 17.8 ms for the constant pitch and pitch rise conditions. Instantaneous frequency, sound pressure level, vibratory amplitudes of the vocal folds and the type of glottal closure were compared. At the beginning of the pitch rise, the acoustic and laryngeal parameters were similar to the parameters that occurred within the sustained phonation conditions. In contrast, the laryngeal parameters at the middle and at the end of the pitch rise differed substantially from those during sustained phonation. For the first time, quantitative measures of the growing glottal chink and the vibration amplitude decrease during pitch increase could be taken. In general, the image evaluation of the pitch rise paradigm can be subdivided into the starting, the raising and the final phase. As each phase can be considered as quasi-stationary, existing software modules are capable of analysing the process by treating each phase separately. Hence, the pitch rise condition may be suitable for clinical examination to detect information of voice disturbances that cannot be visualized during sustained phonation.

[1]  Manfred Moser,et al.  Recording, processing, and analysis of digital high-speed sequence in glottography , 1995 .

[2]  S. Linville,et al.  Glottal gap configurations in two age groups of women. , 1992, Journal of speech and hearing research.

[3]  U Eysholdt,et al.  Spatio-temporal analysis of irregular vocal fold oscillations: biphonation due to desynchronization of spatial modes. , 2001, The Journal of the Acoustical Society of America.

[4]  M. Döllinger,et al.  High‐Precision Measurement of the Vocal Fold Length and Vibratory Amplitudes , 2002, The Laryngoscope.

[5]  I. Titze,et al.  Time-of-day effects on voice range profile performance in young, vocally untrained adult females. , 1999, Journal of voice : official journal of the Voice Foundation.

[6]  Seiji Niimi,et al.  Vocal Fold Vibration and Voice Quality , 1999, Folia Phoniatrica et Logopaedica.

[7]  H. Hollien Some laryngeal correlates of vocal pitch. , 1960, Journal of Speech and Hearing Research.

[8]  F L Wuyts,et al.  Normative voice range profiles of male and female professional voice users. , 2002, Journal of voice : official journal of the Voice Foundation.

[9]  D. Bless,et al.  Vibratory characteristics of the vocal folds in young adult and geriatric women , 1989 .

[10]  M. Schuster,et al.  Glissando: laryngeal motorics and acoustics. , 2003, Journal of voice : official journal of the Voice Foundation.

[11]  Thomas Wittenberg,et al.  Recording, processing, and analysis of digital high-speed sequences in glottography , 2005, Machine Vision and Applications.

[12]  B. Schneider,et al.  The Relevance of Stroboscopy in Functional Dysphonias1 , 2002, Folia Phoniatrica et Logopaedica.

[13]  I R Titze,et al.  On the mechanics of vocal-fold vibration. , 1976, The Journal of the Acoustical Society of America.

[14]  A. M. Sulter,et al.  The effects of frequency and intensity level on glottal closure in normal subjects. , 1996, Clinical otolaryngology and allied sciences.

[15]  T. Wittenberg,et al.  Direct evaluation of high-speed recordings of vocal fold vibrations. , 1996, Folia phoniatrica et logopaedica : official organ of the International Association of Logopedics and Phoniatrics.

[16]  F. Minifie,et al.  Measures of vocal function during changes in vocal effort level. , 1995, Journal of voice : official journal of the Voice Foundation.

[17]  I R Titze,et al.  Irregular vocal-fold vibration--high-speed observation and modeling. , 2000, The Journal of the Acoustical Society of America.

[18]  D. G. Miller,et al.  Standardized laryngeal videostroboscopic rating: differences between untrained and trained male and female subjects, and effects of varying sound intensity, fundamental frequency, and age. , 1996, Journal of voice : official journal of the Voice Foundation.

[19]  U Hoppe,et al.  [Mechanisms of hoarseness -- visualization and interpretation by means of nonlinear dynamics]. , 2002, Laryngo- rhino- otologie.

[20]  M. Södersten,et al.  Glottal closure and perceived breathiness during phonation in normally speaking subjects. , 1990, Journal of speech and hearing research.