Sleep architecture and the absence of trapezius muscle atonia in women with chronic whiplash-associated disorder: a pilot study

Sleep disturbances frequently occur in people with whiplash-associated disorder (WAD) and have been evaluated using questionnaires or actigraphy. It is not clear whether sleep architecture, as assessed by polysomnography (PSG), is altered in individuals with WAD. Additionally, in people with WAD, mu...

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Published in:Sleep and biological rhythms 2022-04, Vol.20 (2), p.165-171
Main Authors: Mateos-Salgado, Erik L., Domínguez-Trejo, Benjamín, Guevara-López, Uría M., Ayala-Guerrero, Fructuoso
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Biomedicine
Health Psychology
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Psychiatry
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description Sleep disturbances frequently occur in people with whiplash-associated disorder (WAD) and have been evaluated using questionnaires or actigraphy. It is not clear whether sleep architecture, as assessed by polysomnography (PSG), is altered in individuals with WAD. Additionally, in people with WAD, muscle dysfunction is observed during tasks performed during wakefulness. Thus, this study aimed to analyze the sleep architecture of patients with chronic WAD as well as to evaluate trapezius muscle activity during sleep. Nine women with chronic WAD and nine healthy age-matched women participated in the study. Two PSG recordings were conducted for each participant. Surface electromyography signal samples of the right and left trapezius, and mentonian muscles were obtained from N2, N3, and REM sleep stages for analysis. Significant differences were found in the percentages of total sleep time in the N1 and N2 stages between the two groups. While the muscle tone of the three muscles analyzed decreased progressively across the sleep stages in the healthy group, in the chronic WAD group, this decrement was observed only in the mentonian muscle, and the trapezius muscle continued to exhibit the same muscle tone throughout the sleep stages without atonia during REM sleep. The absence of trapezius muscle atonia during REM sleep in the WAD patients may be related to dysfunction of the mechanisms that regulate motor activity.
doi_str_mv 10.1007/s41105-021-00350-9
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subjects Biomedical and Life Sciences
Biomedicine
Health Psychology
Human Physiology
Internal Medicine
Neurology
Neurosciences
Original
Original Article
Psychiatry
title Sleep architecture and the absence of trapezius muscle atonia in women with chronic whiplash-associated disorder: a pilot study
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