Augmenting hippocampal–prefrontal neuronal synchrony during sleep enhances memory consolidation in humans

Augmenting hippocampal–prefrontal neuronal synchrony during sleep enhances memory consolidation in humans

Memory consolidation during sleep is thought to depend on the coordinated interplay between cortical slow waves, thalamocortical sleep spindles and hippocampal ripples, but direct evidence is lacking. Here, we implemented real-time closed-loop deep brain stimulation in human prefrontal cortex during...

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Bibliographic Details
Published in:Nature neuroscience Vol. 26; no. 6; pp. 1100 - 1110
Main Authors: Geva-Sagiv, Maya, Mankin, Emily A., Eliashiv, Dawn, Epstein, Shdema, Cherry, Natalie, Kalender, Guldamla, Tchemodanov, Natalia, Nir, Yuval, Fried, Itzhak
Format: Journal Article
Language:English
Published: New York Nature Publishing Group US 01-06-2023
Nature Publishing Group
Subjects:
631/378/1385/2641
631/378/1595/2638
631/378/3920
Accuracy
Activity patterns
Animal Genetics and Genomics
Behavioral Sciences
Biological Techniques
Biomedical and Life Sciences
Biomedicine
Brain
Closed loops
Consolidation
Cortex (temporal)
Coupling
Deep brain stimulation
Electroencephalography - methods
Electrophysiology
Firing pattern
Hippocampus
Hippocampus - physiology
Humans
Locking
Memory Consolidation - physiology
Neurobiology
Neurosciences
Oscillations
Prefrontal cortex
Prefrontal Cortex - physiology
Real time
Ripples
Sleep
Sleep - physiology
Stimulation
Synchronism
Synchronization
Temporal Lobe
Thalamus
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Summary:Memory consolidation during sleep is thought to depend on the coordinated interplay between cortical slow waves, thalamocortical sleep spindles and hippocampal ripples, but direct evidence is lacking. Here, we implemented real-time closed-loop deep brain stimulation in human prefrontal cortex during sleep and tested its effects on sleep electrophysiology and on overnight consolidation of declarative memory. Synchronizing the stimulation to the active phases of endogenous slow waves in the medial temporal lobe (MTL) enhanced sleep spindles, boosted locking of brain-wide neural spiking activity to MTL slow waves, and improved coupling between MTL ripples and thalamocortical oscillations. Furthermore, synchronized stimulation enhanced the accuracy of recognition memory. By contrast, identical stimulation without this precise time-locking was not associated with, and sometimes even degraded, these electrophysiological and behavioral effects. Notably, individual changes in memory accuracy were highly correlated with electrophysiological effects. Our results indicate that hippocampo–thalamocortical synchronization during sleep causally supports human memory consolidation. Geva-Sagiv et al. performed real-time closed-loop intracranial stimulation in human sleep. Brief prefrontal pulses, precisely timed with MTL slow-wave active periods, led to correlated enhancements in sleep oscillation coupling and memory accuracy.
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ISSN:1097-6256
1546-1726
1546-1726
DOI:10.1038/s41593-023-01324-5