Kahana M J, Sekuler R, Caplan J B, Kirschen M, Madsen J R
Volen Center for Complex Systems, Brandeis University, Waltham, Massachusetts 02454, USA.
Nature. 1999 Jun 24;399(6738):781-4. doi: 10.1038/21645.
Theta oscillations (electroencephalographic activity with a frequency of 4-8 Hz) have long been implicated in spatial navigation in rodents; however, the role of theta oscillators in human spatial navigation has not been explored. Here we describe subdural recordings from epileptic patients learning to navigate computer-generated mazes. Visual inspection of the raw intracranial signal revealed striking episodes of high-amplitude slow-wave oscillations at a number of areas of the cortex, including temporal cortex. Spectral analysis showed that these oscillations were in the theta band. These episodes of theta activity, which typically last several cycles, are dependent on task characteristics. Theta oscillations occur more frequently in more complex mazes; they are also more frequent during recall trials than during learning trials.
θ振荡(频率为4 - 8赫兹的脑电图活动)长期以来一直被认为与啮齿动物的空间导航有关;然而,θ振荡器在人类空间导航中的作用尚未得到探索。在这里,我们描述了癫痫患者在学习在计算机生成的迷宫中导航时的硬膜下记录。对原始颅内信号的目视检查显示,在包括颞叶皮质在内的多个皮质区域出现了显著的高振幅慢波振荡发作。频谱分析表明,这些振荡处于θ波段。这些θ活动发作通常持续几个周期,取决于任务特征。在更复杂的迷宫中,θ振荡出现得更频繁;在回忆试验期间比在学习试验期间也更频繁。