2019
DOI: 10.1121/1.5116138
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Vocal fold contact pressure in a three-dimensional body-cover phonation model

Abstract: The goal of this study is to identify vocal fold geometric and mechanical conditions that are likely to produce large contact pressure and thus high risk of vocal fold injury. Using a three-dimensional computational model of phonation, parametric simulations are performed with co-variations in vocal fold geometry and stiffness, with and without a vocal tract. For each simulation, the peak contact pressure is calculated. The results show that the subglottal pressure and the transverse stiffness of the vocal fol… Show more

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Cited by 10 publications
(25 citation statements)
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“…This reduction is largely due to the improved voice production efficiency, which lowers the subglottal pressure required to produce an 80 dB SPL (lower panel in Figure 4 ). Because the subglottal pressure has the largest influence on the peak vocal fold contact pressure ( Zhang, 2019 ), this reduced subglottal pressure requirement leads to an overall reduced peak contact pressure, despite the inconsistent effect of epilaryngeal narrowing on the peak contact pressure as shown in Fig. 3 .…”
Section: Resultsmentioning
confidence: 99%
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“…This reduction is largely due to the improved voice production efficiency, which lowers the subglottal pressure required to produce an 80 dB SPL (lower panel in Figure 4 ). Because the subglottal pressure has the largest influence on the peak vocal fold contact pressure ( Zhang, 2019 ), this reduced subglottal pressure requirement leads to an overall reduced peak contact pressure, despite the inconsistent effect of epilaryngeal narrowing on the peak contact pressure as shown in Fig. 3 .…”
Section: Resultsmentioning
confidence: 99%
“…The same three-dimensional body-cover vocal fold model as in the study by Zhang (2020) is used in this study. The reader is referred to previous studies for details of the model ( Zhang, 2017 , 2019 , 2020 ). The vocal fold model is parameterized by various geometric and mechanical properties of the vocal folds ( Zhang, 2020 ).…”
Section: Methodsmentioning
confidence: 99%
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“…Accurate positioning of the intraglottal pressure sensor is expected to provide new insight into how collision pressure contributes to vocal fold trauma (e.g., how collision pressure varies with sound pressure level) and lead to the development of new measures that could improve prevention, diagnosis and treatment of phonotraumatic disorders. These data could also be used to help improve physical and computational models of voice production [13][14][15][16][17]. Figure 1 displays a photograph of the dual-sensor ISP probe and its dimensions.…”
Section: Introductionmentioning
confidence: 99%