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Functional differences in cerebral activation between slow wave-coupled and uncoupled sleep spindles

Daniel Baena, Zhuo Fang, Aaron Gibbings, Dylan Smith, L. Bryan Ray, Julien Doyon, Adrian M. Owen, Stuart Fogel

2023Frontiers in Neuroscience13 citationsDOIOpen Access PDF

Abstract

Spindles are often temporally coupled to slow waves (SW). These SW-spindle complexes have been implicated in memory consolidation that involves transfer of information from the hippocampus to the neocortex. However, spindles and SW, which are characteristic of NREM sleep, can occur as part of this complex, or in isolation. It is not clear whether dissociable parts of the brain are recruited when coupled to SW vs. when spindles or SW occur in isolation. Here, we tested differences in cerebral activation time-locked to uncoupled spindles, uncoupled SW and coupled SW-spindle complexes using simultaneous EEG-fMRI. Consistent with the “ active system model ,” we hypothesized that brain activations time-locked to coupled SW-spindles would preferentially occur in brain areas known to be critical for sleep-dependent memory consolidation. Our results show that coupled spindles and uncoupled spindles recruit distinct parts of the brain. Specifically, we found that hippocampal activation during sleep is not uniquely related to spindles. Rather, this process is primarily driven by SWs and SW-spindle coupling. In addition, we show that SW-spindle coupling is critical in the activation of the putamen. Importantly, SW-spindle coupling specifically recruited frontal areas in comparison to uncoupled spindles, which may be critical for the hippocampal-neocortical dialogue that preferentially occurs during sleep.

Topics & Concepts

Sleep spindleNeuroscienceMemory consolidationNeocortexHippocampal formationNon-rapid eye movement sleepCoupling (piping)BiologyHippocampusElectroencephalographyMaterials scienceMetallurgySleep and Wakefulness ResearchEEG and Brain-Computer InterfacesNeural dynamics and brain function
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