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Axel Steiger

Max Planck Institute of Psychiatry, Research Group Sleep Endocrinology, Munich 80804, Germany.

4 papers in the library · 89 citations · publishing 2015-2025

Papers

Increased Lucid Dreaming Frequency in Narcolepsy

SLEEP April 30, 2015 Michael Rak, P. Beitinger, Axel Steiger et al. 56 citations

People with narcolepsy recall dreams and nightmares significantly more often than healthy controls, and they also experience lucid dreaming—awareness of dreaming during a dream—at a much higher rate. Among 60 narcolepsy patients and 919 controls, narcolepsy patients reported roughly double the frequency of dream recall and nightmares, and their lucid dreaming frequency was about four times higher. Most narcolepsy patients who had experienced lucid dreaming said it helped relieve the distress from nightmares. Medication did not affect lucid dreaming frequency, though it did reduce dream recall and nightmare frequency.

Sleep fragmentation and lucid dreaming.

Consciousness and cognition September 1, 2020 Jarrod Gott, Michael Rak, Leonore Bovy et al. 23 citations

Lucid dreaming, where people experience waking-like self-reflection during dreams, is linked to more wake-like brain activity in the prefrontal cortex. This multi-centre study, combining four investigations, examined whether fragmented sleep increases the chance of lucid dreaming. Results showed that self-reported awakenings, polyphasic sleep schedules, and physiologically measured wake-REM sleep transitions were associated with lucid dreaming. However, neither self-assessed sleep quality nor physiologically measured numbers of awakenings showed an association. The findings suggest a nuanced relationship, where certain types of sleep fragmentation, but not all, may relate to lucid dreaming, and the authors discuss possible causal mechanisms.

Electrophysiological Correlates of Lucid Dreaming: Sensor and Source Level Signatures.

The Journal of neuroscience : the official journal of the Society for Neuroscience May 14, 2025 Çağatay Demirel, Jarrod Gott, Kristoffer Appel et al. 8 citations

Lucid dreaming, where a person becomes aware they are dreaming, is linked to REM sleep. To overcome previous research limitations, a new preprocessing pipeline was applied to pooled EEG data from multiple labs. Sensor-level differences between lucid and nonlucid REM sleep were minimal, but source-level analysis revealed reduced beta power (12-30 Hz) in right central and parietal areas, including the temporoparietal junction, during lucid dreaming. Alpha-band (8-12 Hz) connectivity increased compared to nonlucid REM sleep. During eye signaling of lucidity, gamma1 power (30-36 Hz) increased in right temporo-occipital regions, including the precuneus, and interhemispheric gamma1 connectivity rose. These patterns suggest shifts in network communication underlying changes in perception, self-awareness, and cognitive control.

Electrophysiological correlates of lucid dreaming: sensor and source level signatures

bioRxiv Preprint Server April 9, 2024 Çağatay Demirel, Jarrod Gott, Kristoffer Appel et al. 2 citations preprint

Lucid dreaming, a state of conscious awareness during REM sleep, is associated with specific brain activity patterns. Compared to non-lucid REM sleep, EEG sensor-level differences were few. However, source-level analysis revealed increased gamma1 power (30-36 Hz) in left-hemispheric temporal areas during lucid dreaming, potentially reflecting verbal insight processes, and in right temporo-occipital regions including the precuneus around the onset of lucid eye signaling, linked to self-referential thinking. Beta power (12-30 Hz) decreased in right central and parietal areas including the temporo-parietal junction, possibly related to conscious reality assessment. Alpha-band (8-12 Hz) functional connectivity increased, contrasting with psychedelic states and highlighting enhanced self-awareness.