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声带麻痹和轻瘫中的神经肌肉代偿机制

Neuromuscular compensation mechanisms in vocal fold paralysis and paresis.

作者信息

Dewan Karuna, Vahabzadeh-Hagh Andrew, Soofer Donna, Chhetri Dinesh K

机构信息

Department of Head and Neck Surgery, David Geffen School of Medicine, Los Angeles, California, U.S.A.

出版信息

Laryngoscope. 2017 Jul;127(7):1633-1638. doi: 10.1002/lary.26409. Epub 2017 Jan 6.

DOI:10.1002/lary.26409
PMID:28059441
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5701745/
Abstract

OBJECTIVES/HYPOTHESIS: Vocal fold paresis and paralysis are common conditions. Treatment options include augmentation laryngoplasty and voice therapy. The optimal management for this condition is unclear. The objective of this study was to assess possible neuromuscular compensation mechanisms that could potentially be used in the treatment of vocal fold paresis and paralysis.

STUDY DESIGN

In vivo canine model.

METHODS

In an in vivo canine model, we examined three conditions: 1) unilateral right recurrent laryngeal nerve (RLN) paresis and paralysis, 2) unilateral superior laryngeal nerve (SLN) paralysis, and 3) unilateral vagal nerve paresis and paralysis. Phonatory acoustics and aerodynamics were measured in each of these conditions. Effective compensation was defined as improved acoustic and aerodynamic profile.

RESULTS

The most effective compensation for all conditions was increasing RLN activation and decreasing glottal gap. Increasing RLN activation increased the percentage of possible phonatory conditions that achieved phonation onset. SLN activation generally led to decreased number of total phonation onset conditions within each category. Differential effects of SLN (cricothyroid [CT] muscle) activation were seen. Ipsilateral SLN activation could compensate for RLN paralysis; normal CT compensated well in unilateral SLN paralysis; and in vagal paresis/paralysis, contralateral SLN and RLN displayed antagonistic relationships.

CONCLUSIONS

Methods to improve glottal closure should be the primary treatment for large glottal gaps. Neuromuscular compensation is possible for paresis. This study provides insights into possible compensatory mechanisms in vocal fold paresis and paralysis.

LEVEL OF EVIDENCE

NA Laryngoscope, 127:1633-1638, 2017.

摘要

目的/假设:声带麻痹和瘫痪是常见病症。治疗选择包括喉成形术和嗓音治疗。这种病症的最佳治疗方法尚不清楚。本研究的目的是评估可能用于治疗声带麻痹和瘫痪的神经肌肉代偿机制。

研究设计

体内犬模型。

方法

在体内犬模型中,我们研究了三种情况:1)右侧喉返神经(RLN)单侧麻痹和瘫痪,2)喉上神经(SLN)单侧瘫痪,3)迷走神经单侧麻痹和瘫痪。在每种情况下测量发声声学和空气动力学。有效代偿定义为声学和空气动力学特征得到改善。

结果

对所有情况最有效的代偿是增加RLN激活并减小声门间隙。增加RLN激活增加了实现发声起始的可能发声条件的百分比。SLN激活通常导致每个类别内发声起始条件总数减少。观察到SLN(环甲肌[CT])激活的不同效果。同侧SLN激活可代偿RLN麻痹;正常CT在单侧SLN麻痹中代偿良好;在迷走神经麻痹/瘫痪中,对侧SLN和RLN表现出拮抗关系。

结论

改善声门闭合的方法应是大的声门间隙的主要治疗方法。麻痹时神经肌肉代偿是可能的。本研究为声带麻痹和瘫痪的可能代偿机制提供了见解。

证据水平

NA 喉镜,127:1633 - 1638,2017年。

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