Synchronous 3D Imaging of the Medial and Superior Vocal Fold Surface in an excised human Hemilarynx.

IF 4.4 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Biomedical Engineering Pub Date : 2024-08-29 DOI:10.1109/TBME.2024.3451652

Reinhard Veltrup, Susanne Angerer, Elena Gessner, Friederike Matheis, Emily Summerer, Michael Dollinger, Marion Semmler

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引用次数: 0

Abstract

Objective: This study investigates relationships between the oscillation behavior of the medial and superior vocal fold (VF) surfaces during sustained phonation in a human cadaver hemilarynx.

Methods: An experimental test stand synchronously captured the medial and superior VF surfaces of a human ex vivo hemilarynx during sustained phonation using two high-speed camera setups in 24 experimental settings. The 3D coordinates of the medial VF surface were reconstructed by triangulation of sewn-in marker points, while laser-based reconstruction was used for the superior VF surface. Correlation analysis and linear regression were used to quantify the connections of the mean and maximal vertical and lateral VF displacements and the VF velocities. Additionally, stepwise linear regression was used to analyze the impact of the measurement variables mean flow rate, adduction and elongation.

Results: Strong linear relationships between all of the tested corresponding parameter pairs of the superior and medial VF surfaces were found (p<.001). Mean and maximum vertical displacements of the medial surface were both approximately 50% of the superior surface. The mean lateral displacements for the medial surface were 12% below the superior surface but 12% higher for the maximum values. The mean and maximum VF velocities were 32% and 36% lower for the medial surface.

Conclusion: The suggested multi-modal test stand allows efficient, comprehensive analysis of human hemilarynges and provides promising information about the interaction of the different VF areas and opens up the systematic analysis of multiple hemilarynges.

Significance: In future, our results could integrate into ENT diagnostics using 3D laryngoscopy where the hidden medial VF surface dynamics may be predicted from the observable superior surface.

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对切除人半喉的内侧和上侧声带褶表面进行同步三维成像。

研究目的本研究探讨了人体尸体半喉持续发音时声带内侧和上侧表面振荡行为之间的关系：实验测试台在 24 个实验设置中使用两台高速摄像机同步捕捉了人体活体半喉在持续发声过程中的声带内侧和上侧表面。内侧 VF 表面的三维坐标是通过缝合标记点的三角测量重建的，而上部 VF 表面则是通过激光重建的。相关分析和线性回归用于量化 VF 垂直和侧向平均和最大位移与 VF 速度之间的联系。此外，还使用逐步线性回归分析了平均流速、内收和伸长等测量变量的影响：结果：发现上部和内侧 VF 表面的所有测试相应参数对之间都有很强的线性关系（p 结论：建议的多模态测试台架可用于测量 VF 的垂直位移和速度：建议的多模态测试台可对人体半咽喉进行高效、全面的分析，并提供有关不同 VF 区域相互作用的有前景的信息，为对多个半咽喉进行系统分析开辟了道路：今后，我们的研究成果可用于耳鼻喉科的三维喉镜诊断，通过可观察到的上表面预测隐藏的内侧 VF 表面动态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Biomedical Engineering 工程技术-工程：生物医学

CiteScore

9.40

自引率

4.30%

发文量

880

审稿时长

2.5 months

期刊介绍： IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.