Functional Cerebral Reorganization for Auditory Spatial Processing and Auditory Substitution of Vision in Early Blind Subjects

Early blind (EB) individuals can recognize bidimensional shapes using a prosthesis substituting vision with audition (PSVA) and activate right dorsal extrastriate visual cortex during the execution of this task. The present study used repetitive transcranial magnetic stimulation (rTMS) to further ex...

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Published in	Cerebral cortex (New York, N.Y. 1991) Vol. 17; no. 2; pp. 457 - 465
Main Authors	Collignon, Olivier, Lassonde, Maryse, Lepore, Franco, Bastien, Danielle, Veraart, Claude
Format	Journal Article
Language	English
Published	United States Oxford University Press 01.02.2007 Oxford Publishing Limited (England)
Subjects	Adult Auditory Cortex - physiopathology Auditory Perception blindness Blindness - physiopathology Blindness - rehabilitation Female Humans Male Middle Aged Neuronal Plasticity occipital cortex plasticity sensory substitution Sound Localization Space Perception transcranial magnetic stimulation Visual Cortex - physiopathology plasticity occipital cortex transcranial magnetic stimulation blindness sensory substitution
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Abstract	Early blind (EB) individuals can recognize bidimensional shapes using a prosthesis substituting vision with audition (PSVA) and activate right dorsal extrastriate visual cortex during the execution of this task. The present study used repetitive transcranial magnetic stimulation (rTMS) to further examine the functional role of this structure in the successful use of the PSVA. Moreover, we investigated which auditory parameter used in the prosthesis (pitch, intensity, or spatial location) might contribute to this occipital activation. Results revealed that rTMS applied to right dorsal extrastriate cortex in EB subjects interferes with both the PSVA use and the auditory spatial location task but not with pitch and intensity discriminations. By contrast, rTMS targeting the same cortical areas in sighted subjects did not affect performance on any auditory tasks. Early visual deprivation thus leads to functional cerebral cross-modal reorganization in the processing of auditory information and auditory-to-visual sensory substitution. The findings also point to the specific involvement of the dorsal visual stream for auditory spatial processing in blind subjects. Moreover, this suggests that sensory substitution prostheses can be developed using these additional neural resources to perform tasks that partially compensate for the loss of vision.
AbstractList	Early blind (EB) individuals can recognize bidimensional shapes using a prosthesis substituting vision with audition (PSVA) and activate right dorsal extrastriate visual cortex during the execution of this task. The present study used repetitive transcranial magnetic stimulation (rTMS) to further examine the functional role of this structure in the successful use of the PSVA. Moreover, we investigated which auditory parameter used in the prosthesis (pitch, intensity, or spatial location) might contribute to this occipital activation. Results revealed that rTMS applied to right dorsal extrastriate cortex in EB subjects interferes with both the PSVA use and the auditory spatial location task but not with pitch and intensity discriminations. By contrast, rTMS targeting the same cortical areas in sighted subjects did not affect performance on any auditory tasks. Early visual deprivation thus leads to functional cerebral cross-modal reorganization in the processing of auditory information and auditory-to-visual sensory substitution. The findings also point to the specific involvement of the dorsal visual stream for auditory spatial processing in blind subjects. Moreover, this suggests that sensory substitution prostheses can be developed using these additional neural resources to perform tasks that partially compensate for the loss of vision. Early blind (EB) individuals can recognize bidimensional shapes using a prosthesis substituting vision with audition (PSVA) and activate right dorsal extrastriate visual cortex during the execution of this task. The present study used repetitive transcranial magnetic stimulation (rTMS) to further examine the functional role of this structure in the successful use of the PSVA. Moreover, we investigated which auditory parameter used in the prosthesis (pitch, intensity, or spatial location) might contribute to this occipital activation. Results revealed that rTMS applied to right dorsal extrastriate cortex in EB subjects interferes with both the PSVA use and the auditory spatial location task but not with pitch and intensity discriminations. By contrast, rTMS targeting the same cortical areas in sighted subjects did not affect performance on any auditory tasks. Early visual deprivation thus leads to functional cerebral cross-modal reorganization in the processing of auditory information and auditory-to-visual sensory substitution. The findings also point to the specific involvement of the dorsal visual stream for auditory spatial processing in blind subjects. Moreover, this suggests that sensory substitution prostheses can be developed using these additional neural resources to perform tasks that partially compensate for the loss of vision.Early blind (EB) individuals can recognize bidimensional shapes using a prosthesis substituting vision with audition (PSVA) and activate right dorsal extrastriate visual cortex during the execution of this task. The present study used repetitive transcranial magnetic stimulation (rTMS) to further examine the functional role of this structure in the successful use of the PSVA. Moreover, we investigated which auditory parameter used in the prosthesis (pitch, intensity, or spatial location) might contribute to this occipital activation. Results revealed that rTMS applied to right dorsal extrastriate cortex in EB subjects interferes with both the PSVA use and the auditory spatial location task but not with pitch and intensity discriminations. By contrast, rTMS targeting the same cortical areas in sighted subjects did not affect performance on any auditory tasks. Early visual deprivation thus leads to functional cerebral cross-modal reorganization in the processing of auditory information and auditory-to-visual sensory substitution. The findings also point to the specific involvement of the dorsal visual stream for auditory spatial processing in blind subjects. Moreover, this suggests that sensory substitution prostheses can be developed using these additional neural resources to perform tasks that partially compensate for the loss of vision.
Author	Lassonde, Maryse Bastien, Danielle Veraart, Claude Lepore, Franco Collignon, Olivier
Author_xml	– sequence: 1 givenname: Olivier surname: Collignon fullname: Collignon, Olivier organization: Neural Rehabilitation Engineering Laboratory, Université Catholique de Louvain, Brussels, Belgium – sequence: 2 givenname: Maryse surname: Lassonde fullname: Lassonde, Maryse organization: Centre de Recherche en Neuropsychologie et Cognition, Département de Psychologie, Université de Montréal, Canada – sequence: 3 givenname: Franco surname: Lepore fullname: Lepore, Franco organization: Centre de Recherche en Neuropsychologie et Cognition, Département de Psychologie, Université de Montréal, Canada – sequence: 4 givenname: Danielle surname: Bastien fullname: Bastien, Danielle organization: Centre de Recherche en Neuropsychologie et Cognition, Département de Psychologie, Université de Montréal, Canada – sequence: 5 givenname: Claude surname: Veraart fullname: Veraart, Claude email: veraart@gren.ucl.ac.be organization: Neural Rehabilitation Engineering Laboratory, Université Catholique de Louvain, Brussels, Belgium
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SubjectTerms	Adult Auditory Cortex - physiopathology Auditory Perception blindness Blindness - physiopathology Blindness - rehabilitation Female Humans Male Middle Aged Neuronal Plasticity occipital cortex plasticity sensory substitution Sound Localization Space Perception transcranial magnetic stimulation Visual Cortex - physiopathology
Title	Functional Cerebral Reorganization for Auditory Spatial Processing and Auditory Substitution of Vision in Early Blind Subjects
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