Stam Cornelis J, van Cappellen van Walsum Anne-Marie, Micheloyannis Sifis
Department of Clinical Neurophysiology, VU University Medical Centre, Amsterdam, The Netherlands.
Int J Psychophysiol. 2002 Oct;46(1):53-66. doi: 10.1016/s0167-8760(02)00041-7.
Working memory is associated with an increase in EEG theta synchronization and a decrease in lower alpha band synchronization. We investigated whether such changes in mean synchronization level are accompanied by changes in small scale fluctuations of synchronization. EEGs (19 channels; average reference; sample frequency 250 Hz) were recorded in 21 healthy subjects (12 males; mean age 62.5 years; S.D. 2.1) at rest and during a visual working memory condition. EEG synchronization was computed in six frequency bands (2-6; 6-10; 10-14; 14-18; 18-22; 22-50 Hz) using the synchronization likelihood. Variability of the synchronization was quantified with synchronization entropy. During the working memory condition synchronization increased in the 2-6 Hz band, and decreased in the 6-10, 14-18 and 18-22 Hz bands. Working memory was associated with increased variability in the 2-6 Hz band, and decreased variability in the 6-10 Hz band and, to a lesser extent, in the 14-18 and 18-22 Hz bands. Working memory is accompanied not only by characteristic changes in the mean level of interactions between neural networks, but also by changes in small scale fluctuations in such interactions. Strong, but rapidly fluctuating coupling between neural systems might provide a mechanism to optimize the balance between local differentiation and global integration of brain activity.
工作记忆与脑电图θ波同步性增加及较低α波段同步性降低有关。我们研究了平均同步水平的这种变化是否伴随着同步性小尺度波动的变化。在21名健康受试者(12名男性;平均年龄62.5岁;标准差2.1)休息时和视觉工作记忆状态下记录脑电图(19个通道;平均参考;采样频率250Hz)。使用同步似然性在六个频带(2 - 6;6 - 10;10 - 14;14 - 18;18 - 22;22 - 50Hz)中计算脑电图同步性。同步性的变异性用同步熵来量化。在工作记忆状态下,2 - 6Hz频带的同步性增加,而6 - 10、14 - 18和18 - 22Hz频带的同步性降低。工作记忆与2 - 6Hz频带变异性增加以及6 - 10Hz频带变异性降低相关,在较小程度上与14 - 18和18 - 22Hz频带变异性降低相关。工作记忆不仅伴随着神经网络之间相互作用平均水平的特征性变化,还伴随着这种相互作用中小尺度波动的变化。神经系统之间强烈但快速波动的耦合可能提供一种机制来优化大脑活动局部分化和全局整合之间的平衡。
