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Olaf Blanke

Laboratory of Cognitive Neuroscience, Neuro-X Institute & Brain Mind Institute, Faculty of Life Sciences, Swiss Federal Institute of Technology (EPFL), Geneva, Switzerland.

14 papers in the library · 1,188 citations · publishing 2004-2026

Papers

Out‐of‐body experience and autoscopy of neurological origin

Brain January 15, 2004 Olaf Blanke, Théodor Landis, Laurent Spinelli et al. 746 citations

Out-of-body experiences (OBE) and autoscopy (seeing one's body from outside) share common neurological mechanisms rooted in disrupted body perception. In six neurological patients, these experiences were linked to vestibular sensations (floating, flying, rotation), visual body-part illusions (shortening or moving limbs), and the sensation of seeing only part of one's body. Body position before the experience influenced both OBE and autoscopy. Brain damage or dysfunction localized to the temporo-parietal junction (TPJ) in five patients. The findings suggest OBE and autoscopy result from a failure to integrate proprioceptive, tactile, visual, and vestibular information about one's own body, combined with a vestibular dysfunction that disconnects personal space from extrapersonal space, caused by temporary TPJ dysfunction during impaired consciousness.

Common and distinct brain networks of autoscopic phenomena.

NeuroImage. Clinical January 1, 2021 Eva Blondiaux, Lukas Heydrich, Olaf Blanke 33 citations

Autoscopic phenomena—the illusion of seeing a second own body in external space—take three forms: autoscopic hallucination, heautoscopy, and out-of-body experience. Using lesion network mapping in 26 neurological patients, all three forms localized to a common brain network centered on the bilateral temporo-parietal junction. Each type also showed distinct functional connectivity patterns: out-of-body experiences connected to the angular gyrus, precuneus, and inferior frontal gyrus; autoscopic hallucinations to the precuneus, inferior temporal gyrus, and cerebellum; heautoscopy to the left inferior frontal gyrus, insula, and parahippocampus. The temporo-parietal junction is the core region for all autoscopic phenomena, with each form recruiting additional sensorimotor and self-related subnetworks.

Out-of-body experiences in relation to lucid dreaming and sleep paralysis: A theoretical review and conceptual model.

Neuroscience and biobehavioral reviews August 1, 2024 Teresa Campillo-Ferrer, Adriana Alcaraz-Sánchez, Ema Demšar et al. 14 citations

Out-of-body experiences (OBEs), where a person feels located outside their physical body, often occur spontaneously near or during sleep. This review examines sleep-related OBEs and proposes that maintaining consciousness during the transition from wakefulness to REM sleep (sleep-onset REM periods) may enable them. A new conceptual model is introduced to distinguish sleep-related OBEs from similar states like lucid dreaming and sleep paralysis, and to suggest possible brain activity patterns (polysomnographic features) underlying them. The predictive coding framework is applied to connect sleep-related OBEs with those occurring during wakefulness.

Changes in spatial self-consciousness elicit grid cell-like representation in the entorhinal cortex.

Proceedings of the National Academy of Sciences of the United States of America March 19, 2024 Hyuk-June Moon, Louis Albert, Emanuela De Falco et al. 9 citations

Grid cells in the entorhinal cortex, which encode location in space using environmental and bodily cues, also respond to illusory shifts in self-location caused by multisensory bodily stimulation, even without actual movement or visual navigation. In this fMRI study, participants experienced controlled illusory forward drifts in self-location through visuo-tactile stimulation while their visual viewpoint remained fixed. The entorhinal cortex showed grid cell-like representations that correlated with the magnitude of the perceived self-location and had the same grid orientation as during conventional virtual navigation. This indicates that the same neural representation is recruited for navigation based on environmental cues and for self-location changes driven by bodily signals.

Robotically-induced auditory-verbal hallucinations: combining self-monitoring and strong perceptual priors.

Psychological medicine February 1, 2024 Pavo Orepic, Fosco Bernasconi, Melissa Faggella et al. 9 citations

A robotic procedure that creates sensorimotor conflicts and a feeling of another person's presence can induce auditory-verbal hallucination (AVH)-like sensations in healthy individuals. In two studies, participants showed increased false alarm rates on a voice detection task. Stronger sensorimotor conflicts led to more AVH-like sensations, supporting the self-monitoring deficit account. The otherness condition produced more false alarms when detecting other-voice stimuli than self-voice stimuli, consistent with the strong perceptual priors account. The findings integrate both theoretical models of AVH.

Out-of-body illusion induced by visual-vestibular stimulation.

iScience January 19, 2024 Hsin-Ping Wu, Estelle Nakul, Sophie Betka et al. 9 citations

Out-of-body experiences (OBEs) involve feeling located outside one's own body, often looking down from above. These experiences have been linked to disrupted integration of bodily signals, particularly visual and vestibular information. In two experiments using mixed reality and a motion platform, congruent visual-vestibular stimulation in a self-centered reference frame induced an OBE-like illusion in healthy participants, characterized by elevated self-location and feelings of disembodiment and lightness. The strength of this illusion varied with individuals' visual field dependency, measured by the Rod and Frame Test. The findings suggest that OBEs arise from a mismatch between visual and vestibular cues related to gravity and self-motion.

Meditation in the third-person perspective modulates minimal self and heartbeat-evoked potentials.

NeuroImage July 1, 2025 Hang Yang, Bruno Herbelin, Chuong Ngo et al. 6 citations

Experienced meditators often report feeling detached from their body and current concerns. This study used virtual reality to manipulate perspective during meditation in 23 participants, comparing a third-person perspective (3PP) with a first-person perspective (1PP). The 3PP condition produced stronger feelings of detachment and disconnection, reduced awareness of body boundaries, and less identification with the body. Neural recordings showed a more negative heartbeat-evoked potential in the 3PP condition, linked to activity in the posterior cingulate cortex and medial prefrontal cortex. These results connect changes in the sense of self during meditation to brain processes underlying bodily self-awareness, suggesting VR could help cultivate self-transcendent experiences.

Multisensory perceptual awareness: Categorical or graded?

Cortex; a journal devoted to the study of the nervous system and behavior November 1, 2019 Jean-Paul Noel, Nathan Faivre, Elisa Magosso et al. 6 citations

Artificial neural networks built with feedback connections from multisensory to unisensory cortices, consistent with all-or-none models of conscious access, produced intermediate reaction times when multisensory stimuli were associated with unisensory feedback. In psychophysical testing with 29 subjects completing 10 hours of a multisensory cue-congruency task, reaction times to multisensory cues reported as unisensory fell between those of fully aware and fully unaware cues. These results suggest that graded forms of phenomenal consciousness can arise from neural networks that follow all-or-none principles.

Subcortical correlates of consciousness with human single neuron recordings.

eLife May 22, 2025 Michael Pereira, Nathan Faivre, Fosco Bernasconi et al. 3 citations

Neurons in the subthalamic nucleus and thalamus, subcortical brain regions traditionally linked to motor and cognitive control, also play a role in perceptual consciousness. Recording single-neuron activity in patients undergoing deep brain stimulation surgery, researchers found that a significant proportion of these neurons changed their firing rate while participants anticipated a weak vibrotactile stimulus. The firing rate of 23% of these neurons differed between detected and undetected stimuli. This direct neurophysiological evidence suggests that subcortical structures contribute to conscious detection, challenging the prevailing cortico-centric view of the neural correlates of consciousness.

Psilocybin Modulates TPJ Effective Connectivity during Out-of-Body Experiences

medRxiv June 25, 2025 Devon Stoliker, Fosco Bernasconi, Olaf Blanke et al. 1 citation preprint

Psilocybin reduces effective connectivity between the right and left anterior insula and between the right anterior insula and right temporoparietal junction in people who report intense out-of-body experiences. These changes parallel disruptions in TPJ–insula circuits observed in clinical and experimental OBEs, particularly in the right hemisphere. The findings highlight how psilocybin-induced disembodiment corresponds to altered causal neural dynamics underlying bodily self-consciousness.

Neural Correlates of Cognitive Alterations and Minor and Structured Hallucinations in Parkinson's Disease

medRxiv July 10, 2026 Lada Kohoutová, Jevita Potheegadoo, Léa F Duong Phan Thanh et al.

Hallucinations in Parkinson's disease, from minor to structured, are linked to changes in brain connectivity and cognitive decline. Non-demented patients with minor or structured hallucinations share a common pattern of resting-state functional connectivity that is absent in patients without hallucinations. This pattern involves connections between subcortical areas and visual, attention, and default mode networks, as well as within-cerebellar and within-subcortical connectivity. The pattern is equally expressed in both hallucination groups and is associated with impairments in attention and executive function, as well as increased sensitivity to an experimental procedure that induces presence hallucinations. The findings suggest that altered subcortical-cortical connectivity underlies hallucinations even in their early, minor forms.

Nondual mindfulness meditation alters self representation and brain connectome in expert meditators

bioRxiv (Cold Spring Harbor Laboratory) July 3, 2026 Sébastien Czajko, Jelle Zorn, Oussama Abdoun et al.

Nondual meditation, specifically Open Presence (OP) practice, is associated with reduced bodily self susceptibility and increased large-scale integration of functional brain networks. Expert meditators with over 10,000 hours of practice showed lower global network eccentricity during OP compared to novices, particularly in dorsal attention, ventral attention, and frontoparietal networks, indicating greater integration. These neural patterns correlated positively with measures of bodily self illusion and negatively with cognitive defusion, a construct reflecting reduced self-grasping toward thoughts. The findings suggest that nondual awareness involves alterations in self-representation and large-scale functional brain integration.

Subcortical correlates of consciousness with human single neuron recordings

bioRxiv Preprint Server January 27, 2023 Michael Pereira, Nathan Faivre, Fosco Bernasconi et al. preprint

Neurons in the subthalamic nucleus and thalamus, subcortical brain structures, modulate their activity during expectation of a weak vibrotactile stimulus on the hand, and 23% of these neurons show firing rates that differ between detected and undetected stimuli. This provides direct neurophysiological evidence that these subcortical regions are involved in perceptual consciousness, challenging the prevailing cortico-centric view.