睡眠纺锤波和 K 复合波的功能磁共振成像。

Functional MRI of sleep spindles and K-complexes.

机构信息

Department of Neurology, Sapienza University of Rome, Italy.

出版信息

Clin Neurophysiol. 2012 Feb;123(2):303-9. doi: 10.1016/j.clinph.2011.06.018. Epub 2011 Jul 19.

DOI:10.1016/j.clinph.2011.06.018

PMID:21775199

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3208090/

Abstract

OBJECTIVE

Sleep spindles and K-complexes are EEG hallmarks of non-REM sleep. However, the brain regions generating these discharges and the functional connections of their generators to other regions are not fully known. We investigated the neuroanatomical correlates of spindles and K-complexes using simultaneous EEG and fMRI.

METHODS

EEGs recorded during EEG-fMRI studies of 7 individuals were used for fMRI analysis. Higher-level group analyses were performed, and images were thresholded at Z ≥ 2.3.

RESULTS

fMRI of 106 spindles and 60 K-complexes was analyzed. Spindles corresponded to increased signal in thalami and posterior cingulate, and right precuneus, putamen, paracentral cortex, and temporal lobe. K-complexes corresponded to increased signal in thalami, superior temporal lobes, paracentral gyri, and medial regions of the occipital, parietal and frontal lobes. Neither corresponded to regions of decreased signal.

CONCLUSIONS

fMRI of both spindles and K-complexes depicts signal subjacent to the vertex, which likely indicates each discharges' source. The thalamic signal is consistent with thalamic involvement in sleep homeostasis. The limbic region's signal is consistent with roles in memory consolidation. Unlike the spindle, the K-complex corresponds to extensive signal in primary sensory cortices.

SIGNIFICANCE

Identification of these active regions contributes to the understanding of sleep networks and the physiology of awareness and memory during sleep.

摘要

目的

睡眠梭形波和 K 复合波是非快速眼动睡眠的脑电图特征。然而，产生这些放电的脑区及其发生器与其他区域的功能连接尚不完全清楚。我们使用同步脑电图和 fMRI 研究了纺锤波和 K 复合波的神经解剖学相关性。

方法

使用 7 名个体的脑电图 fMRI 研究期间记录的 EEG 进行 fMRI 分析。进行了更高层次的组分析，并将图像阈值设定为 Z≥2.3。

结果

分析了 106 个纺锤波和 60 个 K 复合波的 fMRI。纺锤波对应于丘脑和后扣带回以及右侧楔前叶、壳核、旁中央皮质和颞叶的信号增加。K 复合波对应于丘脑、颞叶上部、旁中央回和枕叶、顶叶和额叶的内侧区域的信号增加。两者都不对应于信号减少的区域。

结论

纺锤波和 K 复合波的 fMRI 描绘了顶点下方的信号，这可能表明每个放电的来源。丘脑信号与丘脑在睡眠稳态中的参与一致。边缘区域的信号与记忆巩固的作用一致。与纺锤波不同，K 复合波对应于初级感觉皮层的广泛信号。

意义

这些活跃区域的识别有助于理解睡眠网络以及睡眠期间意识和记忆的生理学。

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