Topographic maps and neural tuning for sensory substitution dimensions learned in adulthood in a congenital blind subject

Shir Hofstetter, Wietske Zuiderbaan, Benedetta Heimler, Serge O. Dumoulin*, Amir Amedi

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Topographic maps, a key principle of brain organization, emerge during development. It remains unclear, however, whether topographic maps can represent a new sensory experience learned in adulthood. MaMe, a congenitally blind individual, has been extensively trained in adulthood for perception of a 2D auditory-space (soundscape) where the y- and x-axes are represented by pitch and time, respectively. Using population receptive field mapping we found neural populations tuned topographically to pitch, not only in the auditory cortices but also in the parietal and occipito-temporal cortices. Topographic neural tuning to time was revealed in the parietal and occipito-temporal cortices. Some of these maps were found to represent both axes concurrently, enabling MaMe to represent unique locations in the soundscape space. This case study provides proof of concept for the existence of topographic maps tuned to the newly learned soundscape dimensions. These results suggest that topographic maps can be adapted or recycled in adulthood to represent novel sensory experiences.

Original languageEnglish
Article number118029
Pages (from-to)1-8
Number of pages8
JournalNeuroImage
Volume235
Early online date6 Apr 2021
DOIs
Publication statusPublished - 15 Jul 2021

Bibliographical note

Funding Information:
This work was supported by the James S. McDonnel Foundation scholar award (No. 652 220020284 ) to A.A., the European Research Council Consolidator-Grant ( 773121 ) to A.A., the Ammodo KNAW Award to S.D., Netherlands Organization for Scientific Research grant ( NWO-VICI 016 .Vici.185.050) to S.D, and KNAW Visiting Professorship Programme to S.D. and A.A.

Funding Information:
This work was supported by the James S. McDonnel Foundation scholar award (No. 652 220020284) to A.A., the European Research Council Consolidator-Grant (773121) to A.A., the Ammodo KNAW Award to S.D., Netherlands Organization for Scientific Research grant (NWO-VICI 016.Vici.185.050) to S.D, and KNAW Visiting Professorship Programme to S.D. and A.A.

Publisher Copyright:
© 2021

Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.

Funding

This work was supported by the James S. McDonnel Foundation scholar award (No. 652 220020284 ) to A.A., the European Research Council Consolidator-Grant ( 773121 ) to A.A., the Ammodo KNAW Award to S.D., Netherlands Organization for Scientific Research grant ( NWO-VICI 016 .Vici.185.050) to S.D, and KNAW Visiting Professorship Programme to S.D. and A.A. This work was supported by the James S. McDonnel Foundation scholar award (No. 652 220020284) to A.A., the European Research Council Consolidator-Grant (773121) to A.A., the Ammodo KNAW Award to S.D., Netherlands Organization for Scientific Research grant (NWO-VICI 016.Vici.185.050) to S.D, and KNAW Visiting Professorship Programme to S.D. and A.A.

FundersFunder number
European Research Council Consolidator-Grant
James S. McDonnell Foundation652 220020284
Horizon 2020 Framework Programme773121
Koninklijke Nederlandse Akademie van Wetenschappen
Nederlandse Organisatie voor Wetenschappelijk OnderzoekNWO-VICI 016

    Keywords

    • Neuronal recycling
    • Population receptive field mapping
    • Sensory substitution devices
    • Time maps
    • Tonotopic maps
    • Topographic maps

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