Spatiotemporal analysis of vocal fold vibrations between children and adults

Döllinger, Michael; Dubrovskiy, Denis; Patel, Rita R.

doi:10.1002/lary.23568

Cited by 45 publications

(43 citation statements)

References 44 publications

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“…The criterion of a minimum of 50 oscillation cycles of steady phonation was defined empirically and has been used successfully in previous studies. 31,33 The segmentation of the steady state phonation was guided by inspecting the pitch trace, Root Mean Square (RMS) contour, and wideband spectrogram on TF32 34 an acoustic software analysis program. The acoustic tracings were examined both visually and quantitatively for 20Hz shift in 20 millisecond window for steady state phonation.…”

Section: Methodsmentioning

confidence: 99%

“…Through qualitative analysis of glottal cycle montages, generated from high speed digital imaging Patel, Dixon, Richmond, Donohue (2012) 30 reported a higher incidence of posterior phonatory gap (girls = 85%, boys = 68%) and a predominantly open phase of the glottal cycle during modal phonation in typically developing 5–11 year old children. Quantitative assessment of vocal fold oscillations in typically developing prepubertal children (5–11 years) 31,32 revealed both temporal and spatial differences in vibratory motion compared to healthy adults. Children had greater cycle-to-cycle variability during normal phonation compared to adults, especially during the closing phase.…”

Section: Introductionmentioning

confidence: 99%

“…Children had greater cycle-to-cycle variability during normal phonation compared to adults, especially during the closing phase. 31 Spatially, the vocal fold oscillations in children were characterized by longer opening phase, increased longitudinal delay for the opening phase and decreased longitudinal delay between the anterior and medio-lateral parts for the closing phase. 31 However much remains to be investigated in terms of the pattern of change of the glottal area function in children.…”

Section: Introductionmentioning

confidence: 99%

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Measurement of Glottal Cycle Characteristics Between Children and Adults: Physiological Variations

Patel¹,

Dubrovskiy²,

Döllinger³

2014

Journal of Voice

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Objective The aim of this study is to quantify phases of the vibratory cycle using measurements of glottal cycle quotients and glottal cycle derivatives, in typically developing pre-pubertal children and young adults with use of high speed digital imaging (HSDI). Method Vocal fold vibrations were recorded from 27 children (age range 5–9 years) and 35 adults (age range 21–45 years), with HSDI at 4000 frames per second for sustained phonation. Glottal area waveform (GAW) measures of Open Quotient (OQ), Closing Quotient (CQ), Speed Index (SI), Rate Quotient (RQ) and Asymmetry Quotient (AsyQ) were computed. Glottal cycle derivatives of Amplitude Quotient (AQ) and Maximum Area Declination Rate (MADR) were also computed. Group differences (adult females, adult males, and children) were statistically investigated for mean and standard deviation values of the glottal cycle quotients and glottal cycle derivatives. Results Children exhibited higher values of Speed Index, Asymmetry Quotient and lower MADR compared to adult males. Children exhibited the highest mean value and lowest variability in Amplitude Quotient compared to adult males and females. Adult males showed lower values of Speed Index, Asymmetry Quotient, Amplitude Quotient and higher values of MADR compared to adult females. Conclusion Glottal cycle vibratory motion in children is functionally different compared to adult males and females; suggesting the need for development of children specific norms for both normal and disordered voice qualities.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Measurement of Glottal Cycle Characteristics Between Children and Adults: Physiological Variations

Patel¹,

Dubrovskiy²,

Döllinger³

2014

Journal of Voice

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“…The in-house software "Glottis Analysis Tools" [26] enables the semi-automatic segmentation of the empty and typically darker glottis area in between the vocal folds. The additional information of the two-dimensional glottis contour is incorporated in the 3D model by a projection on the interpolated, closed 3D surface.…”

Section: Overviewmentioning

confidence: 99%

Endoscopic Laser-Based 3D Imaging for Functional Voice Diagnostics

et al. 2017

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Recently, we reported on the in vivo application of a miniaturized measuring device for 3D visualization of the superior vocal fold vibrations from high-speed recordings in combination with a laser projection unit (LPU). As a long-term vision for this proof of principle, we strive to integrate the further developed laserendoscopy as a diagnostic method in daily clinical routine. The new LPU mainly comprises a Nd:YAG laser source (532 nm/CW/2ω) and a diffractive optical element (DOE) generating a regular laser grid (31 × 31 laser points) that is projected on the vocal folds. By means of stereo triangulation, the 3D coordinates of the laser points are reconstructed from the endoscopic high-speed footage. The new design of the laserendoscope constitutes a compromise between robust image processing and laser safety regulations. The algorithms for calibration and analysis are now optimized with respect to their overall duration and the number of required interactions, which is objectively assessed using binary classifiers. The sensitivity and specificity of the calibration procedure are increased by 40.1% and 22.3%, which is statistically significant. The overall duration for the laser point detection is reduced by 41.9%. The suggested semi-automatic reconstruction software represents an important stepping-stone towards potential real time processing and a comprehensive, objective diagnostic tool of evidence-based medicine.

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“…Visual analysis techniques that are widely used, 59 especially for clinical investigation, include laryngeal (video) 60 fold vibrations in adults and in children [14,15]. …”

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confidence: 99%