Human parahippocampal activity: non-REM and REM elements in wake-sleep transition.

Bodizs R; Sverteczki M; Lazar AS; Halasz P

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Human parahippocampal activity: non-REM and REM elements in wake-sleep transition.

机译：人海马旁活动：非快速眼动和快速眼动过渡中的快速眼动元素。

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The covert-rapid-eye-movement (REM) sleep hypothesis of dreaming suggests that elements of REM sleep emerge during sleep onset, leading to vivid hypnagogic imagery. Based on parahippocampal electrocorticography of epileptic patients we found an increase in REM-like 1.5-3.0Hz parahippocampal activity during wake-sleep transition, which peaks after on average 30s of sleep onset, and reaches 82% of REM sleep value. The increase in 1.5-3.0Hz parahippocampal activity followed alpha dropout, but did not relate to short-term fluctuations in alpha waves or sleep spindles. Non-REM sleep-specific slow (<1.25Hz) activity showed a continuous increase during wake-sleep transition in both temporal scalp and parahippocampal recordings. It is suggested that REM-like parahippocampal rhythmic slow activity is an after-effect of hypothalamic wake-promoting centers' switch-off at sleep onset, leading to an inhibited hippocampal functioning and hypnagogic hallucinations.

机译：做梦的隐蔽性快速眼动（REM）睡眠假说表明，REM睡眠的要素在睡眠发作期间出现，从而产生生动的催眠影像。根据癫痫患者的海马旁脑皮质电图，我们发现唤醒-睡眠过渡期间REM样的1.5-3.0Hz海马旁活动增加，平均在睡眠开始后30 s达到峰值，达到REM睡眠值的82％。 1.5-3.0Hz海马旁活动的增加在阿尔法下降后发生，但与阿尔法波或睡眠纺锤体的短期波动无关。非REM睡眠特定的慢速（<1.25Hz）活动在颞头皮和海马旁记录中在觉醒-睡眠过渡期间显示出持续增加。提示REM样海马旁节律性缓慢活动是下丘脑唤醒促进中心在睡眠开始时关闭的后遗症，导致海马功能受到抑制和催眠幻觉。

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《Brain research bulletin》 |2005年第2期|共8页
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Bodizs R; Sverteczki M; Lazar AS; Halasz P;
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中图分类神经病学与精神病学;
关键词
Sleep; rapid eye movement; Sleep; REM; Slow; Human; 睡眠; 睡眠; 快速眼运动;

机译：Sleep;rapid eye movement;Sleep;REM;Slow;Human;睡眠;睡眠;快速眼运动;

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1. Human parahippocampal activity: non-REM and REM elements in wake-sleep transition. [J] . Bodizs R, Sverteczki M, Lazar AS, Brain research bulletin . 2005,第2期

机译：人海马旁活动：非快速眼动和快速眼动过渡中的快速眼动元素。
2. Non-REM sleep instability in patients with major depressive disorder: subjective improvement and improvement of non-REM sleep instability with treatment (Agomelatine). [J] . Lopes MC, Quera-Salva MA, Guilleminault C Sleep medicine . 2007,第1期

机译：患有重度抑郁症的患者的非快速眼动睡眠不稳定：主观的改善和非快速眼动睡眠不稳定的治疗（Agomelatine）的改善。
3. Intra-“cortical” activity during avian non-REM and REM sleep: variant and invariant traits between birds and mammals [J] . van der Meij Jacqueline, Martinez-Gonzalez Dolores, Beckers Gabri?l J L, Sleep . 2019,第2期

机译：鸟类非快速眼动和快速眼动睡眠中的“皮质”内活动：鸟类和哺乳动物之间的变异和不变性状
4. A 0.21 μJ patient-specific REM/Non-REM sleep classifier for Alzheimer patients [C] . Muhammad Awais Bin Altaf, Wala Saadeh IEEE biomedical circuits and systems conference . 2017

机译：适用于阿尔茨海默病患者的0.21μJ患者特定的REM /非REM睡眠分类器
5. MORPHOLOGY AND TOPOGRAPHY OF SCALP POTENTIALS RELATED TO MIDDLE EAR MUSCLE ACTIVITY IN HUMAN REM SLEEP [D] . FAZEN, MARIANNE FLEMING. 1987

机译：与人类视网膜睡眠中耳肌肉活动有关的头皮电位的形态学和断层扫描
6. Coordination of cortical and thalamic activity during non-REM sleep in humans [O] . Rachel A. Mak-McCully, Matthieu Rolland, Anna Sargsyan, -1

机译：人类非快速眼动睡眠过程中皮质和丘脑活动的协调
7. In human non-REM sleep, more slow-wave activity leads to less blood flow in the prefrontal cortex [O] . Laura Tüshaus, Ximena Omlin, Ruth O’Gorman Tuura, 2017

机译：在人类非REM睡眠中，更多慢波活性导致前额叶皮质中的血液流量较少

Human parahippocampal activity: non-REM and REM elements in wake-sleep transition.

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