Linking Out-of-Body Experience and Self Processing to Mental Own-Body Imagery at the Temporoparietal Junction

The spatial unity of self and body is challenged by various philosophical considerations and several phenomena, perhaps most notoriously the “out-of-body experience” (OBE) during which one's visual perspective and one's self are experienced to have departed from their habitual position within one's body. Although researchers started examining isolated aspects of the self, the neurocognitive processes of OBEs have not been investigated experimentally to further our understanding of the self. With the use of evoked potential mapping, we show the selective activation of the temporoparietal junction (TPJ) at 330-400 ms after stimulus onset when healthy volunteers imagined themselves in the position and visual perspective that generally are reported by people experiencing spontaneous OBEs. Interference with the TPJ by transcranial magnetic stimulation (TMS) at this time impaired mental transformation of one's own body in healthy volunteers relative to TMS over a control site. No such TMS effect was observed for imagined spatial transformations of external objects, suggesting the selective implication of the TPJ in mental imagery of one's own body. Finally, in an epileptic patient with OBEs originating from the TPJ, we show partial activation of the seizure focus during mental transformations of her body and visual perspective mimicking her OBE perceptions. These results suggest that the TPJ is a crucial structure for the conscious experience of the normal self, mediating spatial unity of self and body, and also suggest that impaired processing at the TPJ may lead to pathological selves such as OBEs.

[1]  S. Blackmore Beyond the body: an investigation of out-of-the-body experiences , 1983 .

[2]  Beyond the body , 1983 .

[3]  Flight of Mind: A Psychological Study of the Out-Of-Body Experience , 1985 .

[4]  L M Parsons,et al.  Imagined spatial transformation of one's body. , 1987, Journal of experimental psychology. General.

[5]  G. Klem,et al.  Extraoperative Cortical Functional Localization in Patients with Epilepsy , 1987, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[6]  C. Alvarado Flight of mind: A psychological study of the out-of-body experience , 1987 .

[7]  U. Neisser Five kinds of self‐knowledge , 1988 .

[8]  Matthew Flatt,et al.  PsyScope: An interactive graphic system for designing and controlling experiments in the psychology laboratory using Macintosh computers , 1993 .

[9]  S. Kosslyn Image and Brain: The Resolution of the Imagery Debate , 1994, Journal of Cognitive Neuroscience.

[10]  D. Lehmann,et al.  Segmentation of brain electrical activity into microstates: model estimation and validation , 1995, IEEE Transactions on Biomedical Engineering.

[11]  M. Petrides,et al.  Neural correlates of mental transformations of the body-in-space. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[12]  C. Michel,et al.  Unraveling the cerebral dynamics of mental imagery , 1997, Human brain mapping.

[13]  T Landis,et al.  Illusory Reduplication of One's Own Body: Phenomenology and Classification of Autoscopic Phenomena. , 1997, Cognitive neuropsychiatry.

[14]  Ichiro Kanazawa,et al.  Shortening of simple reaction time by peripheral electrical and submotor-threshold magnetic cortical stimulation , 1997, Experimental Brain Research.

[15]  R. Passingham,et al.  Signal-, set-, and movement-related activity in the human premotor cortex , 1998, Neuropsychologia.

[16]  A. Cowey,et al.  The role of the parietal cortex in visual attention—hemispheric asymmetries and the effects of learning: a magnetic stimulation study , 1998, Neuropsychologia.

[17]  Richard S. J. Frackowiak,et al.  Knowing where and getting there: a human navigation network. , 1998, Science.

[18]  V. Ramachandran,et al.  The perception of phantom limbs , 1998 .

[19]  V. Ramachandran,et al.  The perception of phantom limbs. The D. O. Hebb lecture. , 1998, Brain : a journal of neurology.

[20]  C. A. Marzi,et al.  Transcranial magnetic stimulation selectively impairs interhemispheric transfer of visuo-motor information in humans , 1998, Experimental Brain Research.

[21]  A. Berthoz,et al.  Functional MRI of galvanic vestibular stimulation. , 1998, Journal of neurophysiology.

[22]  L. Sawaki,et al.  Specific and non-specific effects of transcranial magnetic stimulation on simple and go/no-go reaction time , 1999, Experimental Brain Research.

[23]  C M Michel,et al.  Visual activity in the human frontal eye field. , 1999, Neuroreport.

[24]  Jeffrey M. Zacks,et al.  Imagined transformations of bodies: an fMRI investigation , 1999, Neuropsychologia.

[25]  I. M. Harris,et al.  Selective right parietal lobe activation during mental rotation: a parametric PET study. , 2000, Brain : a journal of neurology.

[26]  S. Gallagher Philosophical conceptions of the self: implications for cognitive science , 2000, Trends in Cognitive Sciences.

[27]  R. Campbell,et al.  Evidence from functional magnetic resonance imaging of crossmodal binding in the human heteromodal cortex , 2000, Current Biology.

[28]  Alan Cowey,et al.  Transcranial magnetic stimulation and cognitive neuroscience , 2000, Nature Reviews Neuroscience.

[29]  H. Heinze,et al.  Cortical Activations during the Mental Rotation of Different Visual Objects , 2001, NeuroImage.

[30]  J. Decety,et al.  Effect of subjective perspective taking during simulation of action: a PET investigation of agency , 2001, Nature Neuroscience.

[31]  John C. Rothwell,et al.  Left posterior BA37 is involved in object recognition: a TMS study , 2001, Neuropsychologia.

[32]  N. Kanwisher,et al.  The Human Body , 2001 .

[33]  Gereon R. Fink,et al.  Space Coding in Primate Posterior Parietal Cortex , 2001, NeuroImage.

[34]  A. Sirigu,et al.  Motor and Visual Imagery as Two Complementary but Neurally Dissociable Mental Processes , 2001, Journal of Cognitive Neuroscience.

[35]  M. Jeannerod Neural Simulation of Action: A Unifying Mechanism for Motor Cognition , 2001, NeuroImage.

[36]  Peter Brugger,et al.  Reflective mirrors: Perspective-taking in autoscopic phenomena , 2002, Cognitive neuropsychiatry.

[37]  H. R. Siebner,et al.  Parietal Magnetic Stimulation Delays Visuomotor Mental Rotation at Increased Processing Demands , 2002, NeuroImage.

[38]  O. Blanke,et al.  Neuropsychology: Stimulating illusory own-body perceptions , 2002, Nature.

[39]  Isabel Gauthier,et al.  BOLD Activity during Mental Rotation and Viewpoint-Dependent Object Recognition , 2002, Neuron.

[40]  Rüdiger Wenzel,et al.  Human Vestibular Cortex as Identified with Caloric Stimulation in Functional Magnetic Resonance Imaging , 2002, NeuroImage.

[41]  Christoph M. Michel,et al.  Segregated Processing of Auditory Motion and Auditory Location: An ERP Mapping Study , 2002, NeuroImage.

[42]  G. Egan,et al.  Widespread Dorsal Stream Activation during a Parametric Mental Rotation Task, Revealed with Functional Magnetic Resonance Imaging , 2002, NeuroImage.

[43]  Barbara Tversky,et al.  A Parametric Study of Mental Spatial Transformations of Bodies , 2002, NeuroImage.

[44]  P. Halligan Phantom limbs: The body in mind , 2002, Cognitive neuropsychiatry.

[45]  A. Pascual-Leone,et al.  Studies in Cognition: The Problems Solved and Created by Transcranial Magnetic Stimulation , 2003, Journal of Cognitive Neuroscience.

[46]  Blake W. Johnson,et al.  Non-identical neural mechanisms for two types of mental transformation: event-related potentials during mental rotation and mental paper folding , 2003, Neuropsychologia.

[47]  Alessio Toraldo,et al.  Dissociation between the mental rotation of visual images and motor images in unilateral brain-damaged patients , 2003, Brain and Cognition.

[48]  Carlo Miniussi,et al.  Parietal Lobe Contribution to Mental Rotation Demonstrated with rTMS , 2003, Journal of Cognitive Neuroscience.

[49]  P. Matthews,et al.  Semantic Processing in the Left Inferior Prefrontal Cortex: A Combined Functional Magnetic Resonance Imaging and Transcranial Magnetic Stimulation Study , 2003, Journal of Cognitive Neuroscience.

[50]  Jessica A. Sommerville,et al.  Shared representations between self and other: a social cognitive neuroscience view , 2003, Trends in Cognitive Sciences.

[51]  G. Fink,et al.  Neural correlates of the first-person-perspective , 2003, Trends in Cognitive Sciences.

[52]  C. Michel,et al.  Noninvasive Localization of Electromagnetic Epileptic Activity. II. Demonstration of Sublobar Accuracy in Patients with Simultaneous Surface and Depth Recordings , 2004, Brain Topography.

[53]  C. Michel,et al.  Noninvasive Localization of Electromagnetic Epileptic Activity. I. Method Descriptions and Simulations , 2004, Brain Topography.

[54]  M. Corbetta,et al.  Extrastriate body area in human occipital cortex responds to the performance of motor actions , 2004, Nature Neuroscience.

[55]  O. Blanke,et al.  Out-of-body experience and autoscopy of neurological origin. , 2004, Brain : a journal of neurology.

[56]  Guy Bouvier,et al.  Stimulation of human somatosensory cortex: tactile and body displacement perceptions in medial regions , 2004, Experimental Brain Research.

[57]  Margot J. Taylor,et al.  N170 or N1? Spatiotemporal differences between object and face processing using ERPs. , 2004, Cerebral cortex.

[58]  Toma S Pauss Imaging the brain before \ during \ and after transcranial magnetic stimulation , 2022 .