Neural mechanisms underlying the Rubber Hand Illusion: A systematic review of related neurophysiological studies

Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of ne...

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Published in:	Brain and behavior Vol. 11; no. 8; pp. e02124 - n/a
Main Authors:	Golaszewski, Stefan, Frey, Vanessa, Thomschewski, Aljoscha, Sebastianelli, Luca, Versace, Viviana, Saltuari, Leopold, Trinka, Eugen, Nardone, Raffaele
Format:	Journal Article
Language:	English
Published:	United States John Wiley & Sons, Inc 01.08.2021 John Wiley and Sons Inc Wiley
Subjects:	Achievement tests Body Image Electroencephalography event‐related potentials evoked potentials Experiments Hand Humans Illusions Parietal Lobe Proprioception Review rubber hand illusion Systematic review Touch Perception Transcranial magnetic stimulation Visual Perception electroencephalography event-related potentials transcranial magnetic stimulation rubber hand illusion evoked potentials
ISSN:	2162-3279, 2162-3279
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Abstract	Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. Methods The MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: “Rubber hand illusion” AND “Transcranial magnetic stimulation (TMS)” OR “Evoked potentials (EP)” OR “Event related potentials (ERP)” OR “Electroencephalography (EEG)”. Results Transcranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal–motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre‐existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High‐frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership. Conclusion Neurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self‐awareness in humans. Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques.
AbstractList	Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. Many researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. The MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: "Rubber hand illusion" AND "Transcranial magnetic stimulation (TMS)" OR "Evoked potentials (EP)" OR "Event related potentials (ERP)" OR "Electroencephalography (EEG)". Transcranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal-motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre-existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High-frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership. Neurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self-awareness in humans. IntroductionMany researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques.MethodsThe MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: “Rubber hand illusion” AND “Transcranial magnetic stimulation (TMS)” OR “Evoked potentials (EP)” OR “Event related potentials (ERP)” OR “Electroencephalography (EEG)”.ResultsTranscranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal–motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre-existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High-frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership.ConclusionNeurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self-awareness in humans. Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. Methods The MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: “Rubber hand illusion” AND “Transcranial magnetic stimulation (TMS)” OR “Evoked potentials (EP)” OR “Event related potentials (ERP)” OR “Electroencephalography (EEG)”. Results Transcranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal–motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre‐existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High‐frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership. Conclusion Neurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self‐awareness in humans. Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. Abstract Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques. Methods The MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: “Rubber hand illusion” AND “Transcranial magnetic stimulation (TMS)” OR “Evoked potentials (EP)” OR “Event related potentials (ERP)” OR “Electroencephalography (EEG)”. Results Transcranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal–motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre‐existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High‐frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership. Conclusion Neurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self‐awareness in humans. Many researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques.INTRODUCTIONMany researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the different brain structures and networks. Here, we aimed to review the studies that have investigated this phenomenon by means of neurophysiological techniques.The MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: "Rubber hand illusion" AND "Transcranial magnetic stimulation (TMS)" OR "Evoked potentials (EP)" OR "Event related potentials (ERP)" OR "Electroencephalography (EEG)".METHODSThe MEDLINE, accessed by Pubmed and EMBASE electronic databases, was searched using the medical subject headings: "Rubber hand illusion" AND "Transcranial magnetic stimulation (TMS)" OR "Evoked potentials (EP)" OR "Event related potentials (ERP)" OR "Electroencephalography (EEG)".Transcranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal-motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre-existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High-frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership.RESULTSTranscranial magnetic stimulation studies revealed a significant excitability drop in primary motor cortex hand circuits accompanying the disembodiment of the real hand during the RHI experience and that the perceived ownership over the rubber hand is associated with normal parietal-motor communication. Moreover, TMS provided causal evidence that the extrastriate body area is involved in the RHI and subsequently in body representation, while neuromodulation of ventral premotor area and the inferior parietal lobe did not result in an enhancement of embodiment. EP and ERP studies suggest that pre-existing body representations may affect larger stages of tactile processing and support predictive coding models of the functional architecture of multisensory integration in bodily perceptual experience. High-frequency oscillations on EEG play a role in the integrative processing of stimuli across modalities, and EEG activity in γ band activity in the parietal area reflects the visuotactile integration process. EEG studies also revealed that RHI is associated with the neural circuits underlying motor control and that premotor areas play a crucial role in mediating illusory body ownership.Neurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self-awareness in humans.CONCLUSIONNeurophysiological studies shed new light on our understanding of the different aspects that contribute to the formation of a coherent self-awareness in humans.
Author	Nardone, Raffaele Trinka, Eugen Golaszewski, Stefan Saltuari, Leopold Versace, Viviana Frey, Vanessa Thomschewski, Aljoscha Sebastianelli, Luca
AuthorAffiliation	3 Spinal Cord Injury and Tissue Regeneration Center Salzburg Austria 1 Department of Neurology Christian Doppler Klinik Paracelsus Medical University Salzburg Austria 6 Centre for Cognitive Neuroscience Salzburg Salzburg Austria 7 University for Medical Informatics and Health Technology UMIT Hall in Tirol Austria 5 Research Unit for Neurorehabilitation South Tyrol Bolzano Italy 2 Karl Landsteiner Institut für Neurorehabilitation und Raumfahrtneurologie Salzburg Austria 4 Department of Neurorehabilitation Hospital of Vipiteno (SABES‐ASDAA) Vipiteno‐Sterzing Italy 8 Department of Neurology Hospital of Merano (SABES‐ASDAA) Merano‐Meran Italy
AuthorAffiliation_xml	– name: 3 Spinal Cord Injury and Tissue Regeneration Center Salzburg Austria – name: 6 Centre for Cognitive Neuroscience Salzburg Salzburg Austria – name: 7 University for Medical Informatics and Health Technology UMIT Hall in Tirol Austria – name: 4 Department of Neurorehabilitation Hospital of Vipiteno (SABES‐ASDAA) Vipiteno‐Sterzing Italy – name: 8 Department of Neurology Hospital of Merano (SABES‐ASDAA) Merano‐Meran Italy – name: 5 Research Unit for Neurorehabilitation South Tyrol Bolzano Italy – name: 2 Karl Landsteiner Institut für Neurorehabilitation und Raumfahrtneurologie Salzburg Austria – name: 1 Department of Neurology Christian Doppler Klinik Paracelsus Medical University Salzburg Austria
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Keywords	electroencephalography event-related potentials transcranial magnetic stimulation rubber hand illusion evoked potentials
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Snippet	Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body... Many researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the... IntroductionMany researchers took advantage of the well-established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership... Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body ownership and the... Abstract Introduction Many researchers took advantage of the well‐established rubber hand illusion (RHI) paradigm to explore the link between the sense of body...
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SubjectTerms	Achievement tests Body Image Electroencephalography event‐related potentials evoked potentials Experiments Hand Humans Illusions Parietal Lobe Proprioception Review rubber hand illusion Systematic review Touch Perception Transcranial magnetic stimulation Visual Perception
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Title	Neural mechanisms underlying the Rubber Hand Illusion: A systematic review of related neurophysiological studies
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