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离体喉发声不稳定压力和声门发声压力范围的测定

Determination of phonation instability pressure and phonation pressure range in excised larynges.

作者信息

Zhang Yu, Reynders William J, Jiang Jack J, Tateya Ichiro

机构信息

University of Wisconsin Medical School, Madison, WI 53705, USA.

出版信息

J Speech Lang Hear Res. 2007 Jun;50(3):611-20. doi: 10.1044/1092-4388(2007/043).

DOI:10.1044/1092-4388(2007/043)
PMID:17538104
Abstract

PURPOSE

The present study was a methodological study designed to reveal the dynamic mechanisms of phonation instability pressure (PIP) using bifurcation analysis. Phonation pressure range (PPR) was also proposed for assessing the pressure range of normal vocal fold vibrations.

METHOD

The authors first introduced the concept of bifurcation on the basis of a symmetric vocal fold model and then applied the bifurcation analysis to data from excised larynges. By recording acoustic signals from 10 excised larynges, the authors measured phonation threshold pressure (PTP), PIP, and PPR at the bifurcation pressure points from the spectrograms as subglottal pressure was progressively increased. Furthermore, to investigate the effects of vocal fold elongation on PTP, PIP, and PPR, the authors manipulated the elongation of the vocal folds at 0%, 5%, 10%, and 15% of the resting vocal fold length.

RESULTS

The authors found that PTP, PIP, and PPR were effectively determined using the bifurcation analysis. When vocal fold elongation was increased from 0% to 15%, PTP was significantly increased (p < .001), PIP was not significantly changed (p = .54), and PPR was significantly decreased (p = .003).

CONCLUSION

PIP and PPR represent important parameters to assess phonation instability. Bifurcation analysis represents a valuable procedure for revealing the mechanisms behind PTP, PIP, and PPR and for investigating the effects of vocal fold biomechanical parameters on these 3 pressure parameters.

摘要

目的

本研究是一项方法学研究,旨在通过分岔分析揭示发声不稳定压力(PIP)的动态机制。还提出了发声压力范围(PPR)来评估正常声带振动的压力范围。

方法

作者首先在对称声带模型的基础上引入分岔概念,然后将分岔分析应用于切除喉的数据。通过记录10个切除喉的声学信号,随着声门下压力逐渐增加,作者从频谱图中测量了分岔压力点处的发声阈值压力(PTP)、PIP和PPR。此外,为了研究声带延长对PTP、PIP和PPR的影响,作者在静息声带长度的0%、5%、10%和15%处操纵声带的延长。

结果

作者发现使用分岔分析可以有效地确定PTP、PIP和PPR。当声带延长从0%增加到15%时,PTP显著增加(p <.001),PIP无显著变化(p =.54),PPR显著降低(p =.003)。

结论

PIP和PPR是评估发声不稳定的重要参数。分岔分析是揭示PTP、PIP和PPR背后机制以及研究声带生物力学参数对这三个压力参数影响的有价值方法。

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