- Achermann, P., & Borbely, A. A. (1997). Low-frequency (1 Hz) oscillation in the human electroencephalogram. Neuroscience. 81, 213-222.
- Amzica, F., & Steriade, M. (1998). Electrophysiological correlates of sleep delta waves. Electoencephalography and Clinical Neurophysiology, 107, 69-83.
- Benoit, O, Daurat, A., & Prado J. (2000). Slow (0.7-2. Hz) and fast (2. -4. Hz) delta componetns are differently correlated to theta, alpha, and beta frequency bands during NERM sleep. Clinical Neruophysiology, 111, 2103-2106.
- Dijk, D. J. (1995). EEG slow waves and sleep spindles-windows on the sleeping brain. Behavioural Brain Research, 69, 109-116.
- Elbert, T. & Rockstroh, B. (1987). Throshold regulation-a key to the understandin of the combined dynamics of EEG and event-related potentials. Journal of Psychophysiology. 4, 317-333.
- Engel, A. K., & Singer, W. (2001). Temporal binding and neural correlates of sensory awareness. Trends in Cognitive Sciences, 5, 16-25.
- Fell, J., Klaver, P., Lehnertz, K., Grunwald, T., Schaller, C., Elger, C. E., & Fernadez, G. (2001). Human memory Formation is accompained by rhinal-hippocampal coupling and decoupling. Nature Neuoroscience. 4, 1259-1264.
- Gaillard, J. M. & Blois, R. (1981). Spindle density in sleep of normal subjects. Sleep. 4, 385-391.
- Llinas, R., & Ribary, U. (1993). Coherent 40-Hz oscillation characterizes dream state in humans. Proceedings of the National Academy of Sciences U.S.A., 90, 2078-2081.
- Mann, K., & Roschke, J. (1997). Different phase relationships between EEG frequency kinds during NREM and REM sleep. Sleep. 20, 753-758.
- McCormick, D. A., & BaI, T. (1994). Sensury gating mechanisms of the thalamus. Current Opinon in Neurobiology. 4, 550-556.
- Miltner, W. H. Braun, C. Arnold, M. Wine, H. & Taub, E. (1999). Coherence of gamma-bandk EEG activity as a basis for associate learning. Nature. 397, 391-393.
- Rechtschaffen, A., & Kales, A. (1968). A manual of standardized terminology, technics, and scoring system for sleep staes of human subjects. Public Health Service, NIH Publication No. 204. Washington, DC: U.S. Government Printing Office.
- Steriade, M., Amzica, F., & Contreras, D. (1996). Synchronization of fast (30-40 Hz) spontaneous cortical rhythms during brain ativation. Journal of Neuroscience, 16, 392-417.
- Steriade, M., Jones, E. G., & Llinás, R. R. (1990). Thalamic oscillations and signalisn. New York: Wiley and Sons.
- Tallon-Baundry, C., & Bertrand, O. (1999). Oscillatroy gamma activity in humans and its role in obect representaion. Trends in Cognitive Sciences. 3, 151-162.
- Tononi, G., & Edleman, G. M. (1998). Consciousness and complexity. Science, 282, 1846-1851.
- Uchida, S. Atsumi, Y., & Kojima, T. (1994). Dynamic relationships between sleep spindles and delta-waves during a NREM period. Brain Research Bulletin, 33, 351-355.
- Vareal, F., Lachus, J. P., Rodriguez, E., & Martinerie, J. (2001). The brainweb: Phase synchronization and large-scale integration. Nature Reveiws Neuroscience, 2, 229-239.
Brief Communication HUMAN SCALP RECORDED SIGMA ACTIVITY IS MODULATED BY SLOW EEG OSCILLATIONS DURING DEEP SLEEP
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