高速序列中液滴刺激喉内收肌反射的计算分析。
Computational Analysis of the Droplet-Stimulated Laryngeal Adductor Reflex in High-Speed Sequences.
机构信息
Department of Phoniatrics and Pediatric Audiology, Hannover Medical School, Hanover, Germany.
Institute of Mechatronic Systems, Leibniz Universität Hannover, Hanover, Germany.
出版信息
Laryngoscope. 2022 Dec;132(12):2412-2419. doi: 10.1002/lary.30041. Epub 2022 Feb 8.
OBJECTIVES/HYPOTHESIS: The laryngeal adductor reflex (LAR) is an important protective mechanism of the airways. Its physiology is still not completely understood. The available methods for LAR evaluation offer limited reproducibility and/or rely on subjective interpretation. A new approach, termed Microdroplet Impulse Testing of the LAR (MIT-LAR), was recently introduced. Here, the LAR is elicited by a droplet and a laryngoscopic high-speed recording is acquired simultaneously. In the present work, image-processing algorithms for autonomous MIT-LAR sequence analysis were developed. This allowed the automated approximation of kinematic LAR parameters in humans.
STUDY DESIGN
Development and testing of computational methods.
METHODS
Computational image processing enabled the autonomous estimation of the glottal area, the glottal angle, and the vocal fold edge distance in MIT-LAR sequences. A suitable analytical representation of these glottal parameters allowed the extraction of seven relevant LAR parameters. The obtained values were compared to the literature.
RESULTS
A generalized logistic function showed the highest average goodness of fit among four different analytical approaches for each of the glottal parameters. Autonomous sequence analysis yielded bilateral LAR response latencies of (229 ± 116) ms and (182 ± 60) ms for cases of complete and incomplete glottal closure, respectively. The initial/average/maximum angular vocal fold adduction velocity was estimated at (157 ± 115) °s /(891 ± 516) °s /(929 ± 583) °s and (88 ± 53) °s /(421 ± 221) °s /(520 ± 238) °s for complete and incomplete glottal closure, respectively.
CONCLUSION
The automated extraction of LAR parameters from laryngoscopic high-speed sequences can potentially increase the objectiveness of optical LAR characterization and reduce the associated workload. The proposed methods may thus be helpful for future research on this vital reflex.
LEVEL OF EVIDENCE
NA Laryngoscope, 132:2412-2419, 2022.
目的/假设:喉内收反射(LAR)是气道的重要保护机制。其生理学尚未完全了解。现有的 LAR 评估方法提供的可重复性有限,或者依赖于主观解释。最近引入了一种新方法,称为 LAR 的微滴脉冲测试(MIT-LAR)。在此,通过一滴液滴引发 LAR,并同时进行喉镜高速记录。在本工作中,开发了用于自主 MIT-LAR 序列分析的图像处理算法。这使得可以自动近似人类的运动学 LAR 参数。
研究设计
计算方法的开发和测试。
方法
计算图像处理使自主估计 MIT-LAR 序列中的声门面积、声门角和声带边缘距离成为可能。这些声门参数的合适分析表示形式允许提取七个相关的 LAR 参数。获得的值与文献进行了比较。
结果
对于每种声门参数,四种不同的分析方法中,广义逻辑函数显示出最高的平均拟合度。对于完全和不完全声门闭合的情况,自主序列分析分别产生了双侧 LAR 反应潜伏期 (229 ± 116) ms 和 (182 ± 60) ms。初始/平均/最大角声带内收速度估计值分别为 (157 ± 115) °s /(891 ± 516) °s /(929 ± 583) °s 和 (88 ± 53) °s /(421 ± 221) °s /(520 ± 238) °s 对于完全和不完全声门闭合。
结论
从喉镜高速序列中自动提取 LAR 参数可能会增加光学 LAR 特征描述的客观性,并减少相关工作量。因此,所提出的方法可能有助于未来对这一重要反射的研究。
证据水平
无喉镜,132:2412-2419,2022 年。
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