Spectral analysis of peri-pharyngeal muscles’ EMG in patients with OSA and healthy subjects

•Dyscoordination of dilator muscles during sleep contributes to pharyngeal collapse.•We found a sleep-dependent shift in peri-pharyngeal muscles power spectrum.•This finding suggests a state-dependent alteration in dilators motor unit activation.•We speculate that this change may lessen dilator musc...

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Published inRespiratory physiology & neurobiology Vol. 260; pp. 53 - 57
Main Authors Oliven, Ron, Cohen, Guy, Somri, Mostafa, Schwartz, Alan R., Oliven, Arie
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.02.2019
Subjects
Adult
Age Factors
Air Pressure
Case-Control Studies
Centroid frequency
Electromyography
Female
Genioglossus
Humans
Male
Middle Aged
Obstructive sleep apnea
Pharyngeal Muscles - physiopathology
Sleep
Sleep Apnea, Obstructive - pathology
Spectral analysis
Spectrum Analysis
Statistics, Nonparametric
Upper airway
Wakefulness
Centroid frequency
Genioglossus
Obstructive sleep apnea
Spectral analysis
Upper airway
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Abstract •Dyscoordination of dilator muscles during sleep contributes to pharyngeal collapse.•We found a sleep-dependent shift in peri-pharyngeal muscles power spectrum.•This finding suggests a state-dependent alteration in dilators motor unit activation.•We speculate that this change may lessen dilator muscles’ mechanical efficiency. In addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units (SMUs). Such changes should be identifiable by a state dependent change in EMG power spectrum, i.e., a shift in centroid frequency (ƒc) during sleep. EMGs of the genioglossus and four other peri-pharyngeal muscles were recorded in OSA patients (n = 8), age-matched healthy subjects (n = 7), and 5 young healthy subjects, and ƒc was calculated for wakefulness and sleep periods. ƒc decreased with the onset of sleep and returned to baseline levels after arousal. ƒc of all muscles decreased similarly and significantly during sleep in the OSA and the age-matched healthy subjects, but not in the young subjects. The pattern of decrease in ƒc is compatible with altered synchronization of SMUs during sleep. We speculate that these changes may contribute to the failure of dilator muscles to improve flow limitation during sleep in older subjects.
AbstractList •Dyscoordination of dilator muscles during sleep contributes to pharyngeal collapse.•We found a sleep-dependent shift in peri-pharyngeal muscles power spectrum.•This finding suggests a state-dependent alteration in dilators motor unit activation.•We speculate that this change may lessen dilator muscles’ mechanical efficiency. In addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units (SMUs). Such changes should be identifiable by a state dependent change in EMG power spectrum, i.e., a shift in centroid frequency (ƒc) during sleep. EMGs of the genioglossus and four other peri-pharyngeal muscles were recorded in OSA patients (n = 8), age-matched healthy subjects (n = 7), and 5 young healthy subjects, and ƒc was calculated for wakefulness and sleep periods. ƒc decreased with the onset of sleep and returned to baseline levels after arousal. ƒc of all muscles decreased similarly and significantly during sleep in the OSA and the age-matched healthy subjects, but not in the young subjects. The pattern of decrease in ƒc is compatible with altered synchronization of SMUs during sleep. We speculate that these changes may contribute to the failure of dilator muscles to improve flow limitation during sleep in older subjects.
In addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units (SMUs). Such changes should be identifiable by a state dependent change in EMG power spectrum, i.e., a shift in centroid frequency (ƒc) during sleep.INTRODUCTIONIn addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units (SMUs). Such changes should be identifiable by a state dependent change in EMG power spectrum, i.e., a shift in centroid frequency (ƒc) during sleep.EMGs of the genioglossus and four other peri-pharyngeal muscles were recorded in OSA patients (n = 8), age-matched healthy subjects (n = 7), and 5 young healthy subjects, and ƒc was calculated for wakefulness and sleep periods.METHODSEMGs of the genioglossus and four other peri-pharyngeal muscles were recorded in OSA patients (n = 8), age-matched healthy subjects (n = 7), and 5 young healthy subjects, and ƒc was calculated for wakefulness and sleep periods.ƒc decreased with the onset of sleep and returned to baseline levels after arousal. ƒc of all muscles decreased similarly and significantly during sleep in the OSA and the age-matched healthy subjects, but not in the young subjects.RESULTSƒc decreased with the onset of sleep and returned to baseline levels after arousal. ƒc of all muscles decreased similarly and significantly during sleep in the OSA and the age-matched healthy subjects, but not in the young subjects.The pattern of decrease in ƒc is compatible with altered synchronization of SMUs during sleep. We speculate that these changes may contribute to the failure of dilator muscles to improve flow limitation during sleep in older subjects.CONCLUSIONSThe pattern of decrease in ƒc is compatible with altered synchronization of SMUs during sleep. We speculate that these changes may contribute to the failure of dilator muscles to improve flow limitation during sleep in older subjects.
In addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units (SMUs). Such changes should be identifiable by a state dependent change in EMG power spectrum, i.e., a shift in centroid frequency (ƒc) during sleep. EMGs of the genioglossus and four other peri-pharyngeal muscles were recorded in OSA patients (n = 8), age-matched healthy subjects (n = 7), and 5 young healthy subjects, and ƒc was calculated for wakefulness and sleep periods. ƒc decreased with the onset of sleep and returned to baseline levels after arousal. ƒc of all muscles decreased similarly and significantly during sleep in the OSA and the age-matched healthy subjects, but not in the young subjects. The pattern of decrease in ƒc is compatible with altered synchronization of SMUs during sleep. We speculate that these changes may contribute to the failure of dilator muscles to improve flow limitation during sleep in older subjects.
Author Somri, Mostafa
Oliven, Ron
Schwartz, Alan R.
Cohen, Guy
Oliven, Arie
AuthorAffiliation b Rappaport School of Medicine, Technion Institute of Technology, Haifa, Israel
d Sleep Disorders Center, Johns Hopkins School of Medicine, Baltimore, MD, United Stxlres
a Department of Medicine, Bnai-Zimt Medical Centre, Haifa, Israel
c Department of Anesthesiology, Bnai Zion Medical Center, Haifa, Israel
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Keywords Centroid frequency
Genioglossus
Obstructive sleep apnea
Spectral analysis
Upper airway
Language English
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Snippet •Dyscoordination of dilator muscles during sleep contributes to pharyngeal collapse.•We found a sleep-dependent shift in peri-pharyngeal muscles power...
In addition to dyscoordination of upper airway dilator muscles activity, sleep may also alter the pattern of intra-muscular activation of single motor units...
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StartPage 53
SubjectTerms Adult
Age Factors
Air Pressure
Case-Control Studies
Centroid frequency
Electromyography
Female
Genioglossus
Humans
Male
Middle Aged
Obstructive sleep apnea
Pharyngeal Muscles - physiopathology
Sleep
Sleep Apnea, Obstructive - pathology
Spectral analysis
Spectrum Analysis
Statistics, Nonparametric
Upper airway
Wakefulness
Title Spectral analysis of peri-pharyngeal muscles’ EMG in patients with OSA and healthy subjects
URI https://www.clinicalkey.com/#!/content/1-s2.0-S1569904818303100
https://dx.doi.org/10.1016/j.resp.2018.12.002
https://www.ncbi.nlm.nih.gov/pubmed/30553943
https://www.proquest.com/docview/2157656280
https://pubmed.ncbi.nlm.nih.gov/PMC7422933
Volume 260
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