STUDY OBJECTIVES: The goal of the study was to seek physiological correlates of lucid dreaming. Lucid dreaming is a dissociated state with aspects of waking and dreaming combined in a way so as to suggest a specific alteration in brain physiology for which we now present preliminary but intriguing evidence. We show that the unusual combination of hallucinatory dream activity and wake-like reflective awareness and agentive control experienced in lucid dreams is paralleled by significant changes in electrophysiology. DESIGN: 19-channel EEG was recorded on up to 5 nights for each participant. Lucid episodes occurred as a result of pre-sleep autosuggestion. SETTING: Sleep laboratory of the Neurological Clinic, Frankfurt University. PARTICIPANTS: Six student volunteers who had been trained to become lucid and to signal lucidity through a pattern of horizontal eye movements. MEASUREMENTS AND RESULTS: Results show lucid dreaming to have REM-like power in frequency bands delta and theta, and higher-than-REM activity in the gamma band, the between-states-difference peaking around 40 Hz. Power in the 40 Hz band is strongest in the frontal and frontolateral region. Overall coherence levels are similar in waking and lucid dreaming and significantly higher than in REM sleep, throughout the entire frequency spectrum analyzed. Regarding specific frequency bands, waking is characterized by high coherence in alpha, and lucid dreaming by increased delta and theta band coherence. In lucid dreaming, coherence is largest in frontolateral and frontal areas. CONCLUSIONS: Our data show that lucid dreaming constitutes a hybrid state of consciousness with definable and measurable differences from waking and from REM sleep, particularly in frontal areas.
STUDY OBJECTIVES: The goal of the study was to seek physiological correlates of lucid dreaming. Lucid dreaming is a dissociated state with aspects of waking and dreaming combined in a way so as to suggest a specific alteration in brain physiology for which we now present preliminary but intriguing evidence. We show that the unusual combination of hallucinatory dream activity and wake-like reflective awareness and agentive control experienced in lucid dreams is paralleled by significant changes in electrophysiology. DESIGN: 19-channel EEG was recorded on up to 5 nights for each participant. Lucid episodes occurred as a result of pre-sleep autosuggestion. SETTING: Sleep laboratory of the Neurological Clinic, Frankfurt University. PARTICIPANTS: Six student volunteers who had been trained to become lucid and to signal lucidity through a pattern of horizontal eye movements. MEASUREMENTS AND RESULTS: Results show lucid dreaming to have REM-like power in frequency bands delta and theta, and higher-than-REM activity in the gamma band, the between-states-difference peaking around 40 Hz. Power in the 40 Hz band is strongest in the frontal and frontolateral region. Overall coherence levels are similar in waking and lucid dreaming and significantly higher than in REM sleep, throughout the entire frequency spectrum analyzed. Regarding specific frequency bands, waking is characterized by high coherence in alpha, and lucid dreaming by increased delta and theta band coherence. In lucid dreaming, coherence is largest in frontolateral and frontal areas. CONCLUSIONS: Our data show that lucid dreaming constitutes a hybrid state of consciousness with definable and measurable differences from waking and from REM sleep, particularly in frontal areas.
Authors: P L Nunez; R B Silberstein; Z Shi; M R Carpenter; R Srinivasan; D M Tucker; S M Doran; P J Cadusch; R S Wijesinghe Journal: Clin Neurophysiol Date: 1999-03 Impact factor: 3.708
Authors: Emma M Whitham; Kenneth J Pope; Sean P Fitzgibbon; Trent Lewis; C Richard Clark; Stephen Loveless; Marita Broberg; Angus Wallace; Dylan DeLosAngeles; Peter Lillie; Andrew Hardy; Rik Fronsko; Alyson Pulbrook; John O Willoughby Journal: Clin Neurophysiol Date: 2007-06-15 Impact factor: 3.708
Authors: Emma M Whitham; Trent Lewis; Kenneth J Pope; Sean P Fitzgibbon; C Richard Clark; Stephen Loveless; Dylan DeLosAngeles; Angus K Wallace; Marita Broberg; John O Willoughby Journal: Clin Neurophysiol Date: 2008-03-10 Impact factor: 3.708