Nature Search

Entorhinal grid-like codes for visual space during memory formation

Eye movements during scene viewing are tied to grid-like codes in the entorhinal cortex. Grid signals are specific to later remembered scenes, covary with activity in visuo-oculomotor regions, and are linked to weaker memory.

Luise P. Graichen
Magdalena S. Linder
Isabella C. Wagner
ResearchOpen Access20 Oct 2025
Nature Communications

Volume: 16, P: 1-15
Electrophysiological signatures of veridical head direction in humans

How do we orient ourselves in space? Using electroencephalography and intracranial electroencephalography, Griffiths et al. identify a complex network of brain regions that track head direction in free-moving human participants.

Benjamin J. Griffiths
Thomas Schreiner
Tobias Staudigl
Research06 May 2024
Nature Human Behaviour

Volume: 8, P: 1334-1350
Spindle-locked ripples mediate memory reactivation during human NREM sleep

Whether and how spindle-locked ripples contribute to memory consolidation by mediating memory reactivation in humans is not fully understood. The authors show that ripples in the human medial temporal lobe are associated with memory reactivation, establishing them as key factor in sleep-based memory re-processing.

Thomas Schreiner
Benjamin J. Griffiths
Tobias Staudigl
ResearchOpen Access19 Jun 2024
Nature Communications

Volume: 15, P: 1-15
Rhythmic interactions between the mediodorsal thalamus and prefrontal cortex precede human visual perception

How the thalamus and the cortex interact in the context of perception remains largely unclear. Here, the authors show that rhythmic activity in the human mediodorsal thalamus and prefrontal cortex interact to predict whether a near-threshold visual stimulus will be seen, contradicting the traditional view that the thalamus is a simple relay.

Benjamin J. Griffiths
Tino Zaehle
Tobias Staudigl
ResearchOpen Access29 Jun 2022
Nature Communications

Volume: 13, P: 1-11
The human thalamus orchestrates neocortical oscillations during NREM sleep

Slow oscillations, which are instrumental to memory consolidation, have been assumed to be solely generated in neocortex. Here, the authors show that the anterior thalamus might play a fundamental role in organizing slow oscillations in human sleep.

Thomas Schreiner
Elisabeth Kaufmann
Tobias Staudigl
ResearchOpen Access05 Sept 2022
Nature Communications

Volume: 13, P: 1-16
Respiration modulates sleep oscillations and memory reactivation in humans

The memory function of sleep relies on the coordination of slow oscillations and spindles. Here the authors show that respiration is associated with the emergence and interplay of these sleep rhythms, and that this coupling is linked to memory reactivation.

Thomas Schreiner
Marit Petzka
Bernhard P. Staresina
ResearchOpen Access18 Dec 2023
Nature Communications

Volume: 14, P: 1-11
Endogenous memory reactivation during sleep in humans is clocked by slow oscillation-spindle complexes

Sleep after learning helps to strengthen new memories. Here, the authors link this memory benefit to the reactivation of learning experiences when two endogenous sleep rhythms—slow oscillations and sleep spindles—coincide.

Thomas Schreiner
Marit Petzka
Bernhard P. Staresina
ResearchOpen Access25 May 2021
Nature Communications

Volume: 12, P: 1-10
Neural activity in the human anterior thalamus during natural vision

Marcin Leszczynski
Leila Chaieb
Charles E. Schroeder
ResearchOpen Access01 Sept 2021
Scientific Reports

Volume: 11, P: 1-13

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