甲状软骨成形术植入物硬度对声门形状和语音声学的影响。

Effects of thyroplasty implant stiffness on glottal shape and voice acoustics.

作者信息

Cameron Brian H, Zhang Zhaoyan, Chhetri Dinesh K

机构信息

Keck School of Medicine of USC Los Angeles, California.

UCLA Department Head and Neck Surgery Los Angeles, California.

出版信息

Laryngoscope Investig Otolaryngol. 2019 Dec 13;5(1):82-89. doi: 10.1002/lio2.322. eCollection 2020 Feb.

DOI:10.1002/lio2.322

PMID:32128434

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7042641/

Abstract

OBJECTIVES

Vocal fold (VF) stiffness and geometry are determinant variables in voice production. Type 1 medialization thyroplasty (MT), the primary surgical treatment for glottic insufficiency, changes both of these variables. Understanding the cause and effect relationship between these variables and acoustic output might improve voice outcomes after MT. In this study, the effects of thyroplasty implants with variable stiffness on glottal shape and acoustics were investigated.

METHODS

In an ex vivo human larynx phonation model, bilateral MT with implants of four stiffness levels (1386, 21.6, 9.3, and 5.5 kPa) were performed. Resulting acoustics and aerodynamics were measured across multiple airflow levels. A vertical partial hemilaryngectomy was performed and stereoscopic images of the VF medial surface taken to reconstruct its three-dimensional (3D) surface contour. The results were compared across implants.

RESULTS

The effects of implant stiffness on acoustics varied by airflow. Softer implants resulted in improved acoustics, as measured by cepstral peak prominence (CPP), at lower airflow levels compared to stiffer implants but this relationship reversed at high airflow levels. Stiffer implants generally required less airflow to generate a given subglottal pressure. Stiffer implants resulted in greater medialized surface area and maximal medialization, but all implants had similar effects on overall VF medial surface contour.

CONCLUSION

Softer implants result in less medialization but better acoustics at low airflow rates. Stiffer implants provide better acoustics and more stable pressure-flow relationships at higher airflow rates. This highlights a potential role for patient-specific customized thyroplasty implants of various stiffness levels.

LEVEL OF EVIDENCE

NA.

摘要

目的

声带（VF）的僵硬度和几何形状是语音产生中的决定性变量。1型甲状软骨成形术（MT）是声门闭合不全的主要外科治疗方法，它会改变这两个变量。了解这些变量与声学输出之间的因果关系可能会改善MT术后的语音效果。在本研究中，研究了具有不同僵硬度的甲状软骨成形术植入物对声门形状和声学的影响。

方法

在离体人喉发声模型中，进行了双侧MT，植入四种僵硬度水平（1386、21.6、9.3和5.5 kPa）的植入物。在多个气流水平下测量产生的声学和空气动力学参数。进行垂直部分半喉切除术，并拍摄VF内表面的立体图像以重建其三维（3D）表面轮廓。对不同植入物的结果进行比较。

结果

植入物僵硬度对声学的影响因气流而异。与较硬的植入物相比，较软的植入物在较低气流水平下通过谐波峰值突出度（CPP）测量显示声学效果更好，但在高气流水平下这种关系会逆转。较硬的植入物通常需要较少的气流来产生给定的声门下压力。较硬的植入物导致更大的内移表面积和最大内移，但所有植入物对整个VF内表面轮廓的影响相似。

结论

较软的植入物在低气流速率下导致较少的内移但声学效果更好。较硬的植入物在较高气流速率下提供更好的声学效果和更稳定的压力-流量关系。这突出了针对患者定制不同僵硬度水平的甲状软骨成形术植入物的潜在作用。

证据水平

无。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ef9/7042641/1e7f65b96653/LIO2-5-82-g001.jpg

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甲状软骨成形术植入物硬度对声门形状和语音声学的影响。

Effects of thyroplasty implant stiffness on glottal shape and voice acoustics.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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