Sleep electroencephalogram (EEG) oscillations and associated memory processing during childhood and early adolescence.

Kurz, Eva‐Maria; Zinke, Katharina; Born, Jan

doi:10.1037/dev0001487

Cited by 11 publications

(1 citation statement)

References 87 publications

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“…In early childhood (~5-6 years old), the timing of SO-spindle coupling is less consistent than in adulthood [85]. Coupling consistency increases as children enter adolescence, with 14-18-year olds showing more consistent coupling than 5-11-year olds [86,87]. Using a powerful longitudinal design, Hahn and colleagues showed that increases in the consistency of SO-spindle coupling across adolescence are associated with a stronger benefit of sleep for memory consolidation [58].…”

Section: Changes In So-spindle Coupling and Memory Consolidation Acro...mentioning

confidence: 99%

Electrophysiological mechanisms of memory consolidation in human non-rapid eye movement sleep

Denis¹,

Cairney²

2023

Preprint

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Purpose of the review: Pioneering work in rodents has shown that the reactivation of recently acquired memories during sleep is a key mechanism underlying the beneficial effect of sleep on memory consolidation. In this review, we consider recent evidence of memory reactivation processes in human sleep.Recent findings: The precise temporal coupling of sleep spindles to slow oscillations during non-rapid eye movement sleep plays a central role in sleep-associated memory consolidation. Both correlational studies and studies directly manipulating oscillatory activity in the sleeping brain have confirmed that spindles coupled to slow oscillations are better predictors of memory than uncoupled spindles, and that the greatest memory benefit comes when spindles are tightly coupled to the up-state of the slow oscillation. Recent evidence suggests that memory content is reactivated during sleep, with a functional benefit for memory performance after sleep. Reactivation events are time-locked around slow oscillation-spindle coupling events, as well as sharp-wave ripples in hippocampus.Summary: Memory reactivation, which is facilitated by slow oscillation-spindle coupling events, can be observed during human sleep and shows promise as a prime mechanism underlying sleep’s beneficial effects on memory.

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Section: Changes In So-spindle Coupling and Memory Consolidation Acro...mentioning

confidence: 99%

Electrophysiological mechanisms of memory consolidation in human non-rapid eye movement sleep

Denis¹,

Cairney²

2023

Preprint

View full text Add to dashboard Cite

show abstract

Relation between sleep spindles and semantically induced false memory

Verma,

Pandey,

Kashyap

2024

Sleep Breath

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Electrophysiological Mechanisms of Memory Consolidation in Human Non-rapid Eye Movement Sleep

Denis,

Cairney

2024

Curr Sleep Medicine Rep

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Purpose of Review Pioneering work in rodents has shown that the reactivation of recently acquired memories during sleep is a key mechanism underlying the beneficial effect of sleep on memory consolidation. In this review, we consider recent evidence of memory reactivation processes in human sleep. Recent Findings The precise temporal coupling of sleep spindles to slow oscillations during non-rapid eye movement sleep plays a central role in sleep-associated memory consolidation. Both correlational studies and studies directly manipulating oscillatory activity in the sleeping brain have confirmed that spindles coupled to slow oscillations are better predictors of memory than uncoupled spindles and that the greatest memory benefit comes when spindles are tightly coupled to the up-state of the slow oscillation. Recent evidence suggests that memory content is reactivated during sleep, with a functional benefit for memory performance after sleep. Reactivation events are time-locked around slow oscillation-spindle coupling events, as well as sharp-wave ripples in hippocampus. Summary Memory reactivation, which is facilitated by slow oscillation-spindle coupling events, can be observed during human sleep and shows promise as a prime mechanism underlying sleep’s beneficial effects on memory.

show abstract

Sleep electroencephalogram (EEG) oscillations and associated memory processing during childhood and early adolescence.

Cited by 11 publications

References 87 publications

Electrophysiological mechanisms of memory consolidation in human non-rapid eye movement sleep

Electrophysiological mechanisms of memory consolidation in human non-rapid eye movement sleep

Relation between sleep spindles and semantically induced false memory

Electrophysiological Mechanisms of Memory Consolidation in Human Non-rapid Eye Movement Sleep

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