Hierarchical nesting of slow oscillations, spindles and ripples in the human hippocampus during sleep
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Publication year
2015Source
Nature Neuroscience, 18, 11, (2015), pp. 1679-1686ISSN
Publication type
Article / Letter to editor
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Organization
PI Group Neuronal Oscillations
Neuroinformatics
PI Group Memory & Space
Journal title
Nature Neuroscience
Volume
vol. 18
Issue
iss. 11
Page start
p. 1679
Page end
p. 1686
Subject
120 Memory and Space; 160 000 Neuronal Oscillations; NeuroinformaticsAbstract
During systems-level consolidation, mnemonic representations initially reliant on the hippocampus are thought to migrate to neocortical sites for more permanent storage, with an eminent role of sleep for facilitating this information transfer. Mechanistically, consolidation processes have been hypothesized to rely on systematic interactions between the three cardinal neuronal oscillations characterizing non-rapid eye movement (NREM) sleep. Under global control of de- and hyperpolarizing slow oscillations (SOs), sleep spindles may cluster hippocampal ripples for a precisely timed transfer of local information to the neocortex. We used direct intracranial electroencephalogram recordings from human epilepsy patients during natural sleep to test the assumption that SOs, spindles and ripples are functionally coupled in the hippocampus. Employing cross-frequency phase-amplitude coupling analyses, we found that spindles were modulated by the up-state of SOs. Notably, spindles were found to in turn cluster ripples in their troughs, providing fine-tuned temporal frames for the hypothesized transfer of hippocampal memory traces.
This item appears in the following Collection(s)
- Academic publications [246515]
- Donders Centre for Cognitive Neuroimaging [4040]
- Electronic publications [134102]
- Faculty of Science [38028]
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