Ownership of an artificial limb induced by electrical brain stimulation

Replacing the function of a missing or paralyzed limb with a prosthetic device that acts and feels like one’s own limb is a major goal in applied neuroscience. Recent studies in nonhuman primates have shown that motor control and sensory feedback can be achieved by connecting sensors in a robotic ar...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 114; no. 1; pp. 166 - 171
Main Authors Collins, Kelly L., Guterstam, Arvid, Cronin, Jeneva, Olson, Jared D., Ehrsson, H. Henrik, Ojemann, Jeffrey G.
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 03.01.2017
Subjects
Adult
Artificial Limbs
Biological Sciences
Body Image
Brain
Brain Mapping
Electric Stimulation
Electrodes
Female
Hand - physiology
Hands
Humans
Male
Medicin och hälsovetenskap
Motor ability
Peripheral Nervous System - physiology
Proprioception - physiology
Prostheses
Sensors
Somatosensory Cortex - physiology
Touch - physiology
Touch Perception - physiology
Young Adult
multisensory integration
self
neuroprosthetics
body perception
electrical brain stimulation
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Summary:Replacing the function of a missing or paralyzed limb with a prosthetic device that acts and feels like one’s own limb is a major goal in applied neuroscience. Recent studies in nonhuman primates have shown that motor control and sensory feedback can be achieved by connecting sensors in a robotic arm to electrodes implanted in the brain. However, it remains unknown whether electrical brain stimulation can be used to create a sense of ownership of an artificial limb. In this study on two human subjects, we show that ownership of an artificial hand can be induced via the electrical stimulation of the hand section of the somatosensory (SI) cortex in synchrony with touches applied to a rubber hand. Importantly, the illusion was not elicited when the electrical stimulation was delivered asynchronously or to a portion of the SI cortex representing a body part other than the hand, suggesting that multisensory integration according to basic spatial and temporal congruence rules is the underlying mechanism of the illusion. These findings show that the brain is capable of integrating “natural” visual input and direct cortical-somatosensory stimulation to create the multisensory perception that an artificial limb belongs to one’s own body. Thus, they serve as a proof of concept that electrical brain stimulation can be used to “bypass” the peripheral nervous system to induce multisensory illusions and ownership of artificial body parts, which has important implications for patients who lack peripheral sensory input due to spinal cord or nerve lesions.
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1K.C. and A.G. contributed equally to this work.
Author contributions: K.L.C., A.G., H.H.E., and J.G.O. designed research; K.L.C., A.G., J.C., J.D.O., and J.G.O. performed research; A.G. analyzed data; and K.L.C., A.G., J.C., J.D.O., H.H.E., and J.G.O. wrote the paper.
3H.H.E. and J.G.O contributed equally to this work.
Edited by Peter L. Strick, University of Pittsburgh, Pittsburgh, PA, and approved November 20, 2016 (received for review October 3, 2016)
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1616305114