Department of Physiology, School of Medicine, Universidad de la República, General Flores 2125, 11800, Montevideo, Uruguay.
Eur J Neurosci. 2013 Apr;37(8):1330-9. doi: 10.1111/ejn.12143. Epub 2013 Feb 13.
During cognitive processes there are extensive interactions between various regions of the cerebral cortex. Oscillations in the gamma frequency band (≈40 Hz) of the electroencephalogram (EEG) are involved in the binding of spatially separated but temporally correlated neural events, which results in a unified perceptual experience. The extent of these interactions can be examined by means of a mathematical algorithm called 'coherence', which reflects the 'strength' of functional interactions between cortical areas. The present study was conducted to analyse EEG coherence in the gamma frequency band of the cat during alert wakefulness (AW), quiet wakefulness (QW), non-rapid eye movement (NREM) sleep and rapid eye movement (REM) sleep. Cats were implanted with electrodes in the frontal, parietal and occipital cortices to monitor EEG activity. Coherence values within the gamma frequency (30-100 Hz) from pairs of EEG recordings were analysed. A large increase in coherence occurred between all cortical regions in the 30-45 Hz frequency band during AW compared with the other behavioral states. As the animal transitioned from AW to QW and from QW to NREM sleep, coherence decreased to a moderate level. Remarkably, there was practically no EEG coherence in the entire gamma band spectrum (30-100 Hz) during REM sleep. We conclude that functional interactions between cortical areas are radically different during sleep compared with wakefulness. The virtual absence of gamma frequency coherence during REM sleep may underlie the unique cognitive processing that occurs during dreams, which is principally a REM sleep-related phenomenon.
在认知过程中,大脑皮层的各个区域之间存在广泛的相互作用。脑电图(EEG)中伽马频段(≈40 Hz)的振荡涉及到空间上分离但时间上相关的神经事件的绑定,从而产生统一的感知体验。这些相互作用的程度可以通过一种称为“相干性”的数学算法来检查,它反映了皮质区域之间功能相互作用的“强度”。本研究旨在分析猫在警觉清醒(AW)、安静清醒(QW)、非快速眼动(NREM)睡眠和快速眼动(REM)睡眠期间伽马频段的 EEG 相干性。猫被植入电极于额叶、顶叶和枕叶以监测 EEG 活动。分析来自 EEG 记录对的伽马频带(30-100 Hz)内的相干值。与其他行为状态相比,在 AW 期间,所有皮质区域之间在 30-45 Hz 频带中的相干性都大大增加。随着动物从 AW 过渡到 QW 以及从 QW 过渡到 NREM 睡眠,相干性降低到中等水平。值得注意的是,在 REM 睡眠期间,整个伽马频带谱(30-100 Hz)中几乎没有 EEG 相干性。我们的结论是,与清醒状态相比,睡眠期间皮质区域之间的功能相互作用是截然不同的。在 REM 睡眠期间缺乏伽马频率相干性可能是梦境中发生的独特认知处理的基础,这主要是与 REM 睡眠相关的现象。
