Multisensory Spatial Mechanisms of the Bodily Self and Social Cognition - A Commentary on Vittorio Gallese and Valentina Cuccio

Christian Pfeiffer
2015
Article

Résumé

This commentary aims to find the right description of the pre-reflective brain mechanisms underlying our phenomenal experience of being a subject bound to a physical body (bodily self) and basic cognitive, perceptual, and subjective aspects related to interaction with other individuals (social cognition). I will focus on the proposal by Gallese and Cuccio that embodied simulation, in terms of motor resonance, is the primary brain mechanism underlying the pre-reflective aspects of social cognition and the bodily self. I will argue that this proposal is too narrow to serve a unified theory of the neurobiological mechanisms of both target phenomena. I support this criticism with theoretical considerations and empirical evidence suggesting that multisensory spatial processing, which is distinct from but a pre-requisite of motor resonance, substantially contributes to the bodily self and social cognition. My commentary is structured in three sections. The first section addresses social cognition and compares embodied simulation to an alternative account, namely the attention schema theory. According to this theory we pre-reflectively empathize with others by predicting their current state of attention which involves predicting the spatial focus of attention. Thereby we derive a representational model of their state of mind. On this account, spatial coding of attention, rather than motor resonance, is the primary mechanism underlying social cognition. I take this as a theoretical alternative complementing motor resonance mechanisms. The second section focuses on the bodily self. Comparison of the brain net- works of the bodily self and social cognition reveals strong overlap, suggesting that both phenomena depend on shared multisensory and sensorimotor mechanisms. I will review recent empirical data about altered states of the bodily self in terms of self-location and the first-person perspective. These spatial aspects of the bodily self are encoded in brain regions distinct from the brain network of em- bodied simulation. I argue that while motor resonance might contribute to body ownership and agency, it does not account for spatial aspects of the bodily self. Thus, embodied simulation appears to be a necessary but insufficiently “primary” brain mechanism of the bodily self and social cognition. The third section discusses the contributions of the vestibular system, i.e., the sensory system encoding head motion and gravity, to the bodily self and social cognition. Vestibular cortical processing seems relevant to both processes, be- cause it directly encodes the world-centered direction of gravity and allows us to distinguish between motions of the own body and motions of other individuals and the external world. Furthermore, the vestibular cortical network largely overlaps with those neural networks relevant to the bodily self and social cognition. Thus, the vestibular system may play a crucial role in multisensory spatial coding relating the bodily self to other individuals in the external world.

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https://infoscience.epfl.ch/record/204687?ln=fr

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Christian Pfeiffer
2015
Article

Résumé

Official source

https://infoscience.epfl.ch/record/204687?ln=fr

À propos de ce résultat

Concepts associés (22)

Concepts associés

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Publications associées (22)

Publications associées

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What is the relevance of the body and body-transformed sensory information for subjective experience? In the last two decades, paradigms from cognitive neuroscience have demonstrated that the subjective sensations of possessing a body (body ownership, BO), of being located in space (self-location) and being directed at the world (first-person perspective, 1PP), crucially rely on and can be manipulated by exposure to conflicting sensory information in so called bodily illusions. These aspects of subjective experience that are attached to the body, or bodily self-consciousness (BSC), are therefore malleable in healthy participants and accessible to experimental manipulations. BSC is argued to rely on multisensory integration mechanisms within the space directly surrounding the body (i.e. the peripersonal space, PPS). Amply supported by behavioral evidence, data from the brain is sparse. To help elucidate, in terms of neural activity, the relationship between PPS and an aspect of BSC, namely BO, in the first part of my thesis, I will present the results from an fMRI study and a meta-analysis, whereby I globally show that visual and tactile information presented within PPS is processed predominantly within the fronto-parietal and temporo-parietal regions of the brain whereas BO is processed in fronto-parietal and insular regions. Critically, both PPS and BO processing converges only in the left superior parietal cortex (intraparietal sulcus and area 2), thus suggesting both a level of neural integration and dissociation. The subjective 1PP is also argued to rely on multisensory mechanisms and in particular vestibular signals, but the underlying behavioral and neural mechanisms remain largely unexplored. Thus, in the second part of my thesis, I present a behavioral study and a clinical case report. In the prior, we exposed healthy subjects in a supine posture to touch on their backs and synchronous or asynchronous touch on the back of an observed avatar. We further simulated visual gravity using virtual balls falling either in the same or opposite direction with respect to the pull of physical gravity. In line with our expectations, the latter biased the direction of the 1PP to that suggested by the visual gravity (thus subjects reported looking downwards). The visual gravity information also interacted with the synchrony of stroking to affect 1PP and a more frequent downward 1PP was associated with a higher self-elevation rating. Also in line with the idea that BSC and in particular the 1PP relies on multisensory (in particular visuo-vestibular) integration, in the clinical case report we describe a male patient with peripheral vestibulopathy experiencing out-of-body experiences, who fails to integrate visual and vestibular information and is sensitive to visuo-tactile conflicts in bodily illusions. The results from my thesis collectively reinforce the current view that BSC can be manipulated by and thus crucially relies on multisensory mechanisms within PPS as shown both behaviorally for 1PP and in terms of neural correlates for BO. The results also suggest that different combinations of sensory stimuli manipulate most effectively these aspects, with synchronous visuo-tactile stroking affecting BO whereas asynchronous visuo-tactile stroking and vestibular information affecting 1PP. Apprehending better these mechanisms will be an important milestone to understanding how sensory information shapes subjective experience.

EPFL2017

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Embodied space in architecture, cognitive neuroscience, and virtual reality

Isabella Maria Pasqualini

Recent findings in cognitive neuroscience enable improved understanding of embodiment and egocentric space in architecture. From a historical perspective the human body has been inferred as a reference in the debate of architectonic proportion. It was suggested that architectonic form moulds the subjective experience of the environment in contingency with skilful articulation of geometrical proportions in a three-dimensional construct. Modern science recalls several notions of how perception, thought and action are embodied. Embodiment and the sense of body ownership as such have been linked to multisensory and own-body processing, allowing for a relationship between aspects of the self to the conception of architectonic space and theory. Investigations about multisensory integration of architectonic space and its relation to own-body processing may therefore provide scientific insight to metaphorical and functional associations with the human bodily experience of architectonic space and its digital representation including perspective and immersive virtual reality. Attempts to sketch an interaction between architecture and cognitive neuroscience may bring about a design discipline based on multisensory own-body processing with permeable borders to contemporary science and technologies. This PhD thesis introduces digital space and cognitive neuroscience to the investigation of embodiment in architecture using techniques from immersive virtual reality and cognitive psychology. Here, three experimental studies using immersive virtual reality were based on the phenomenology of own-body perception introducing parameters from architecture. With such setups we tested whether bodily self-consciousness may be associated to architecture through a visuo-tactile conflict, and, whether changes in the architectonic space modulate bodily self-consciousness. Our results relate bodily self-consciousness with architecture specific perceptions, as well as bodily stability. Also, we observed perceptual changes related to visual perspective. We discuss such findings with regard to bodily feelings and perceived geometry through a critical confrontation with notions of embodiment in architecture.

EPFL2012

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Vestibular contribution to bodily self-consciousness and multisensory cortical processing

Christian Pfeiffer

How does the self relate to the body? Bodily self-consciousness, i.e. the sense of being a subject bound to a body, involves a first-person perspective (1PP), i.e. the sense of being directed at the world. Prior research suggests that bodily self-consciousness depends on brain mechanisms integrating multisensory bodily signals. However, the specific multisensory mechanisms of 1PP are poorly understood. Here, I defend the thesis that the vestibular system, i.e. the sensory system encoding rotational and linear accelerations of the head, contributes to 1PP and related multisensory processing in the brain. The first part of my thesis presents experimental evidence showing that 1PP was influenced by multisensory conflict about the direction of gravity and the location of the body. 1PP depended on integrated visual-vestibular signals and was functionally distinct from another aspect of bodily self-consciousness: self-identification, i.e. the feeling that a particular body is âmineâ. The second part of my thesis presents the electrical neural correlates by which vestibular stimulation affected somatosensory and visual cortical processing. Passive whole-body yaw rotation naturally and selectively stimulated the vestibular system while the evoked responses to somatosensory or visual stimuli were recorded by electroencephalography. Electrical neuroimaging analysis showed temporal-specific vestibular effects on somatosensory and visual evoked potentials, localized by source estimations to distinct regions of the somatosensory, visual, and vestibular cortical networks. Collectively, the results from my thesis suggest that the vestibular system contributes to 1PP and multisensory cortical processing and imply that the vestibular system should not be neglected when studying higher brain function and neurobiological mechanisms of consciousness.

EPFL2015

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Embodied space in architecture, cognitive neuroscience, and virtual reality

Isabella Maria Pasqualini

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EPFL2017