通过同步高分辨率测压法和肌电图评估呼气肌力量训练。

Expiratory muscle strength training evaluated with simultaneous high-resolution manometry and electromyography.

作者信息

Hutcheson Katherine A, Hammer Michael J, Rosen Sarah P, Jones Corinne A, McCulloch Timothy M

机构信息

Department of Head and Neck Surgery, MD Anderson Cancer Center, Houston, Texas, U.S.A.

Department of Surgery, Division of Otolaryngology-Head and Neck Surgery, University of Wisconsin-Madison, Madison, Wisconsin, U.S.A.

出版信息

Laryngoscope. 2017 Apr;127(4):797-804. doi: 10.1002/lary.26397. Epub 2017 Jan 13.

DOI:10.1002/lary.26397

PMID:28083946

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5557375/

Abstract

OBJECTIVE

To examine feasibility of a simultaneous high-resolution pharyngeal manometry (HRM) and electromyography (EMG) experimental paradigm to detect swallowing-related patterns of palatal, laryngeal, and pharyngeal muscle activity during expiratory training.

STUDY DESIGN

Technical report.

METHODS

Simultaneous HRM, surface submental, and intramuscular EMG were acquired in two healthy participants during five tasks: 10-cc water swallow, maximum expiratory pressure (MEP) testing, and expiratory muscle strength training (EMST) at three pressure levels (sham, 50%, and 75% MEP).

RESULTS

Experimental conditions were feasible. Velopharyngeal closing pressure, palate EMG activity, and pharyngeal EMG activity increased as expiratory load increased. In contrast, thyroarytenoid EMG activity was low during the expiratory task, consistent with glottic opening during exhalation. Submental EMG patterns were more variable during expiratory tasks. Intraluminal air pressures recorded with HRM were correlated with measured expiratory pressures and target valve-opening pressures of the EMST device.

CONCLUSION

Results suggest that a simultaneous HRM/EMG/EMST paradigm may be used to detect previously unquantified swallowing-related muscle activity during EMST, particularly in the palate and pharynx. Our approach and initial findings will be helpful to guide future hypothesis-driven studies and may enable investigators to evaluate other muscle groups active during these tasks. Defining mechanisms of action is a critical next step toward refining therapeutic algorithms using EMST and other targeted treatments for populations with dysphagia and airway disorders.

LEVEL OF EVIDENCE

Laryngoscope, 127:797-804, 2017.

摘要

目的

研究同时进行高分辨率咽测压法（HRM）和肌电图（EMG）实验模式，以检测呼气训练期间腭、喉和咽肌活动的吞咽相关模式的可行性。

研究设计

技术报告。

方法

在两名健康参与者完成五项任务期间，同时采集HRM、颏下表面肌电图和肌内肌电图：10毫升水吞咽、最大呼气压（MEP）测试以及三种压力水平（假刺激、50%和75%MEP）下的呼气肌力量训练（EMST）。

结果

实验条件可行。随着呼气负荷增加，腭咽闭合压、腭肌电图活动和咽肌电图活动增加。相比之下，呼气任务期间甲杓肌肌电图活动较低，与呼气时声门打开一致。呼气任务期间颏下肌电图模式变化更大。HRM记录的腔内气压与测量的呼气压和EMST装置的目标瓣膜开启压力相关。

结论

结果表明，同时使用HRM/EMG/EMST模式可用于检测EMST期间先前未量化的吞咽相关肌肉活动，尤其是在腭部和咽部。我们的方法和初步发现将有助于指导未来基于假设的研究，并可能使研究人员能够评估这些任务期间活跃的其他肌肉群。确定作用机制是完善针对吞咽困难和气道疾病人群使用EMST及其他靶向治疗的治疗算法的关键下一步。

证据水平

4。《喉镜》，2017年，第127卷，第797 - 804页。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/58a2/5557375/f2649a752981/nihms860143f1.jpg

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