Rubber hand illusion modulates the influences of somatosensory and parietal inputs to the motor cortex

The rubber hand illusion (RHI) paradigm experimentally produces an illusion of rubber hand ownership and arm shift by simultaneously stroking a rubber hand in view and a participant's visually occluded hand. It involves visual, tactile, and proprioceptive multisensory integration and activates...

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Published in:Journal of neurophysiology 2019-02, Vol.121 (2), p.563-573
Main Authors: Isayama, Reina, Vesia, Michael, Jegatheeswaran, Gaayathiri, Elahi, Behzad, Gunraj, Carolyn A, Cardinali, Lucilla, Farnè, Alessandro, Chen, Robert
Format: Article
Language:English
Subjects:
Adult
Aged
Cognitive science
Emerging diseases
Female
Hand - physiology
Human health and pathology
Humans
Illusions
Life Sciences
Male
Middle Aged
Motor Cortex - physiology
Neurons and Cognition
Neuroscience
Psychology
Psychology and behavior
Sensation
Somatosensory Cortex - physiology
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cited_by cdi_FETCH-LOGICAL-c432t-511d9c28ccffda5713ad23e36347472f1faa6a8bae1244aff4bd6697294cf0a43
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container_title Journal of neurophysiology
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creator Isayama, Reina
Vesia, Michael
Jegatheeswaran, Gaayathiri
Elahi, Behzad
Gunraj, Carolyn A
Cardinali, Lucilla
Farnè, Alessandro
Chen, Robert
description The rubber hand illusion (RHI) paradigm experimentally produces an illusion of rubber hand ownership and arm shift by simultaneously stroking a rubber hand in view and a participant's visually occluded hand. It involves visual, tactile, and proprioceptive multisensory integration and activates multisensory areas in the brain, including the posterior parietal cortex (PPC). Multisensory inputs are transformed into outputs for motor control in association areas such as PPC. A behavioral study reported decreased motor performance after RHI. However, it remains unclear whether RHI modifies the interactions between sensory and motor systems and between PPC and the primary motor cortex (M1). We used transcranial magnetic stimulation (TMS) and examined the functional connections from the primary somatosensory and association cortices to M1 and from PPC to M1 during RHI. In experiment 1, short-latency afferent inhibition (SAI) and long-latency afferent inhibition (LAI) were measured before and immediately after a synchronous (RHI) or an asynchronous (control) condition. In experiment 2, PPC-M1 interaction was measured using two coils. We found that SAI and LAI were reduced in the synchronous condition compared with baseline, suggesting that RHI decreased somatosensory processing in the primary sensory and the association cortices projecting to M1. We also found that greater inhibitory PPC-M1 interaction was associated with stronger RHI assessed by questionnaire. Our findings suggest that RHI modulates both the early and late stages of processing of tactile afferent, which leads to altered M1 excitability by reducing the gain of somatosensory afferents to resolve conflicts among multisensory inputs. NEW & NOTEWORTHY Perception of one's own body parts involves integrating different sensory information and is important for motor control. We found decreased effects of cutaneous stimulation on motor cortical excitability during rubber hand illusion (RHI), which may reflect decreased gain of tactile input to resolve multisensory conflicts. RHI strength correlated with the degree of inhibitory posterior parietal cortex-motor cortex interaction, indicating that parietal-motor connection is involved in resolving sensory conflicts and body ownership during RHI.
doi_str_mv 10.1152/jn.00345.2018
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source American Physiological Society:Jisc Collections:American Physiological Society Journals ‘Read Publish & Join’ Agreement:2023-2024 (Reading list); American Physiological Society Free
subjects Adult
Aged
Cognitive science
Emerging diseases
Female
Hand - physiology
Human health and pathology
Humans
Illusions
Life Sciences
Male
Middle Aged
Motor Cortex - physiology
Neurons and Cognition
Neuroscience
Psychology
Psychology and behavior
Sensation
Somatosensory Cortex - physiology
title Rubber hand illusion modulates the influences of somatosensory and parietal inputs to the motor cortex
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