A Unique Pattern of Sleep Structure is Found to be Identical at all Cortical Sites: a Neurobiological Interpretation

doi:10.1093/cercor/13.10.1044

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Cerebral Cortex, Vol. 13, No. 10, 1044-1050, October 2003
© 2003 Oxford University Press

A Unique Pattern of Sleep Structure is Found to be Identical at all Cortical Sites: a Neurobiological Interpretation

Helli Merica and Ronald D Fortune¹

Laboratoire de Sommeil et de Neurophysiologie, Hôpitaux Universitaires de Genève, Belle Idée, 1225 Chêne-Bourg, Geneva, Switzerland and , ¹ CERN European Organisation for Nuclear Research, 1211 Geneva 23, Switzerland

There is substantial evidence both at the cellular and at theelectroencephalogram (EEG) level to support the view that thebrainstem activating systems control the sleep-state (stage)progression over time that constitutes the overall sleep structureas seen at the EEG. We argue here that the brainstem thereforemodulates the time-courses of spectral power in the differentEEG frequency bands. These show during non-rapid eye movement(NREM) sleep a very particular interrelationship the originof which has received little attention and for which the neuronaltransition probability model for sleep structure has proposeda physiological explanation. We advance the hypothesis thatif the brainstem is modulating these time-courses then theyshould show a marked similarity in shape and timing at all sites.Using data from 10 healthy subjects, we measure the degree ofsimilarity of the time-courses over each of the first four NREMepisodes at the frontal, central and parietal sites, for eachof the frequency bands beta, sigma and delta, and also the corticallygenerated slow oscillation. All the cross- correlation coefficientsare high and statistically significant, indicating that theshape and timing of these time-courses are practically identicalat different sites despite regional differences in their averagepower levels. These results tend to suggest that two processesmay operate concurrently: the brainstem controls the shape andtiming of the power time-courses while cortical–thalamicinteraction controls their site-dependent average power.

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