1. Restoration of abnormal sleep EEG power in patients with insomnia disorder after 1Hz rTMS over left DLPFC
- Author
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Xumeng Zhao, Jiayi Liu, Ziqiang Shao, Xiaoyang Liu, Zhen Wang, Kai Yuan, Bingqian Zhang, Yan Li, Xiaona Sheng, Yifei Zhu, and Yansu Guo
- Subjects
insomnia disorder ,polysomnography ,repetitive transcranial magnetic stimulation ,relative power ,stage 2 NREM sleep ,Psychiatry ,RC435-571 - Abstract
IntroductionHyperarousal has been a significant pathophysiological theory related to insomnia disorder (ID), characterized by excessive cortical activation and abnormal electroencephalogram (EEG) power during daytime or sleep. However, there is currently insufficient attention to the EEG power during rapid eye movement (REM) sleep and different stages of non-rapid eye movement (NREM) sleep. Additionally, whether the abnormal sleep EEG power in ID patients can be restored by repetitive transcranial magnetic stimulation (rTMS) remains unclear.Methods> Data of 26 ID patients and 26 healthy controls (HCs) were included in the current observational study. The comparisons of relative power between patients and HCs at baseline in each band of each sleep stage and the changes in patients before and after rTMS treatment were performed. The correlations between relative power and behavioral measures of the patients were also investigated.ResultsAbnormalities in sleep EEG relative power in the delta, beta and gamma bands of the patients were observed in NREM2, NREM3 and REM sleep. Correlations were identified between relative power and behavioral measures in ID group, primarily encompassing sleep efficiency, sleep onset latency and depression scores. Post-treatment improvements in relative power of the delta and beta band were observed in NREM2 sleep.DiscussionThe relative power of sleep EEG exhibited a significant correlation with sleep measures in ID patients, and demonstrated notable differences from HCs across the delta, beta, and gamma frequency bands. Furthermore, our findings suggest that rTMS treatment may partially ameliorate relative power abnormalities in patients with ID.
- Published
- 2024
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