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Search results (91)

« Back to Publications

Respiration Shapes the Neural Dynamics of Successful Remembering in Humans.

Bullón Tarrasó E. et al, (2026), J Neurosci, 46

Hippocampal Ripples during Offline Periods Predict Human Motor Sequence Learning.

Chen P-C. et al, (2025), J Neurosci, 45

Sleep strengthens successor representations of learned sequences

He X. et al, (2025)

Respiration shapes the neural dynamics of successful remembering in humans.

Bullon Tarraso E. et al, (2025)

Slow wave sleep supports the reorganisation of episodic memory networks

Faghel-Soubeyrand S. et al, (2025)

Human sleep spindles track experimentally excited brain circuits

Thom JL. and Staresina BP., (2025)

Characterizing neuronal and population responses to electrical stimulation in the human hippocampo-cortical network.

van der Plas M. et al, (2025), Brain Stimul, 18, 1764 - 1776

Characterizing neuronal and population responses to electrical stimulation in the human hippocampo-cortical network

van der Plas M. et al, (2024)

Coupled sleep rhythms for memory consolidation.

Staresina BP., (2024), Trends Cogn Sci, 28, 339 - 351

Ripple-locked coactivity of stimulus-specific neurons and human associative memory.

Kunz L. et al, (2024), Nat Neurosci, 27, 587 - 599

The role of sleep spindles in working memory performance: A daytime nap paradigm

Wilhelm S. et al, (2024), JOURNAL OF SLEEP RESEARCH, 33

Respiration modulates sleep oscillations and memory reactivation in humans.

Schreiner T. et al, (2023), Nat Commun, 14

Hippocampal neurons code individual episodic memories in humans.

Kolibius LD. et al, (2023), Nat Hum Behav, 7, 1968 - 1979

Better late than never: sleep still supports memory consolidation after prolonged periods of wakefulness.

Petzka M. et al, (2023), Learn Mem, 30, 245 - 249

How coupled slow oscillations, spindles and ripples coordinate neuronal processing and communication during human sleep.

Staresina BP. et al, (2023), Nat Neurosci, 26, 1429 - 1437

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