Giovanni Pellegrino , Silvia L. Isabella , Giulio Ferrazzi , Laura Gschwandtner , Martin Tik , Giorgio Arcara , Daniele Marinazzo , Anna-Lisa Schuler
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引用次数: 0
摘要
目的:听觉驱动的伽马同步(GS)与基于副白质+和锥体神经元环路的特定皮层回路的功能有关。在神经精神疾病(如精神分裂症、阿尔茨海默病、中风等)中,这一环路的功能受到损害,其与临床实践的相关性也日益得到认可。典型伽马频率为 40Hz 的听觉刺激可以作为一种 "压力测试",对整个大脑皮层进行有效的兴奋/抑制(E/I),从而引发 GS,并通过脑磁图(MEG)或高密度脑电图(EEG)进行记录。然而,这两种技术成本高昂,且并不普及。因此,我们评估了单个脑电图电极是否足以准确估计整个皮层表面由听觉驱动的 GS 水平,同时期望听觉皮层和体感皮层具有最高的对应性:我们利用 3 个 EEG 电极(C4、F4、O2)和完整的 MEG 设置,对 29 名健康受试者进行了 EEG-MEG 同步测量。在听觉伽马刺激的双耳暴露和安静时进行记录。我们将三个脑电图电极分别进行的 GS 测量与完整的 MEG 图谱进行了比较。在脑电信号和皮层重建的 MEG 信号之间计算时间分辨锁相值(PLVt):结果:在听觉刺激过程中,脑电图捕获了大量的 GS,尤其是来自听觉皮层和运动-运动区域的 GS。额叶(C4)和中央电极(F4)尤其如此:讨论和结论:虽然在静息状态和听觉刺激过程中,高级脑电图和脑电图是准确绘制GS空间图的必要条件,但单个脑电图通道足以检测GS的整体水平。这些结果对于在标准临床环境中绘制GS图具有巨大的转化潜力。
Reliable measurement of auditory-driven gamma synchrony with a single EEG electrode: A simultaneous EEG-MEG study
Objective
Auditory-driven gamma synchrony (GS) is linked to the function of a specific cortical circuit based on a parvalbumin+ and pyramidal neuron loop. This circuit is impaired in neuropsychiatric conditions (i.e. schizophrenia, Alzheimer's disease, stroke etc.) and its relevance in clinical practice is increasingly being recognized. Auditory stimulation at a typical gamma frequency of 40 Hz can be applied as a ‘stress test’ of excitation/inhibition (E/I) of the entire cerebral cortex, to drive GS and record it with magnetoencephalography (MEG) or high-density electroencephalography (EEG). However, these two techniques are costly and not widely available. Therefore, we assessed whether a single EEG electrode is sufficient to provide an accurate estimate of the auditory-driven GS level of the entire cortical surface while expecting the highest correspondence in the auditory and somatosensory cortices.
Methods
We measured simultaneous EEG-MEG in 29 healthy subjects, utilizing 3 EEG electrodes (C4, F4, O2) and a full MEG setup. Recordings were performed during binaural exposure to auditory gamma stimulation and during silence. We compared GS measurement of each of the three EEG electrodes separately against full MEG mapping. Time-resolved phase locking value (PLVt) was computed between EEG signals and cortex reconstructed MEG signals.
Results
During auditory stimulation, but not at rest, EEG captures a significant amount of GS, especially from both auditory cortices and motor-premotor regions. This was especially true for frontal (C4) and central electrodes (F4).
Discussion and Conclusions
While hd-EEG and MEG are necessary for accurate spatial mapping of GS at rest and during auditory stimulation, a single EEG channel is sufficient to detect the global level of GS. These results have great translational potential for mapping GS in standard clinical settings.
期刊介绍:
NeuroImage, a Journal of Brain Function provides a vehicle for communicating important advances in acquiring, analyzing, and modelling neuroimaging data and in applying these techniques to the study of structure-function and brain-behavior relationships. Though the emphasis is on the macroscopic level of human brain organization, meso-and microscopic neuroimaging across all species will be considered if informative for understanding the aforementioned relationships.