September 2024
Volume 24, Issue 10
Open Access
Vision Sciences Society Annual Meeting Abstract  |   September 2024
Decoding sound content in early visual cortex of aphantasic individuals
Author Affiliations & Notes
  • Belen M. Montabes de la Cruz
    Centre for Cognitive Neuroimaging, University of Glasgow
  • Clement Abbatecola
    Centre for Cognitive Neuroimaging, University of Glasgow
    Imaging Centre for Excellence (ICE), University of Glasgow
  • Roberto S. Luciani
    Centre for Cognitive Neuroimaging, University of Glasgow
    School of Computing Science, University of Glasgow
  • Angus T. Paton
    Centre for Cognitive Neuroimaging, University of Glasgow
    Imaging Centre for Excellence (ICE), University of Glasgow
  • Johanna Bergmann
    Max Planck Institute for Human Cognitive and Brain Sciences
  • Petra Vetter
    Department of Psychology, University of Fribourg
  • Lucy S. Petro
    Centre for Cognitive Neuroimaging, University of Glasgow
    Imaging Centre for Excellence (ICE), University of Glasgow
  • Lars Muckli
    Centre for Cognitive Neuroimaging, University of Glasgow
    Imaging Centre for Excellence (ICE), University of Glasgow
  • Footnotes
    Acknowledgements  The European Union’s Horizon 2020 Framework Programme for Research and Innovation SGA 945539, the Biotechnology and Biological Science research Council (BBSRC) BB/V010956/1, and the college of Medicine, Veterinary and Life Sciences Doctoral Training Programme (MVLS DTP) at the University of Glasgow.
Journal of Vision September 2024, Vol.24, 1347. doi:https://doi.org/10.1167/jov.24.10.1347
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      Belen M. Montabes de la Cruz, Clement Abbatecola, Roberto S. Luciani, Angus T. Paton, Johanna Bergmann, Petra Vetter, Lucy S. Petro, Lars Muckli; Decoding sound content in early visual cortex of aphantasic individuals. Journal of Vision 2024;24(10):1347. https://doi.org/10.1167/jov.24.10.1347.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

The retinotopic visual cortex of blindfolded and congenitally blind participants responds with decodable activity patterns to the sound of natural scenes (Vetter et al., 2014, 2020). Decoding accuracies increase from foveal to far peripheral retinotopic regions in V1 and V2, with stronger effects in the blind (V1, V2 & V3). There are direct projections from the auditory cortex to the peripheral visual cortex in non-human primates (Falchier et al., 2002) and we assume that in humans these projections are also more predominant in the periphery. In congenitally blind participants, visual feedforward processing is absent and top-down projections to the visual cortex might proliferate. In contrast, in aphantasia top-down projections might be less effective, leading to a loss of visual imagery experience. How about other forms of top-down projections? Is auditory top-down influence reduced in aphantasia? We presented auditory stimuli to 22 blindfolded aphantasic participants. We found that sound could only be decoded in foveal V3, reporting reduced decoding in V1 and V2 in aphantasics compared to controls and blind participants. When fitting a linear mixed effect model on data from the control, blind and aphantasic groups, we found a significant interaction effect between group and eccentricity and between area and eccentricity: in V1, the relative increase of decoding with eccentricity was strong only in the blind participants. The differences between groups increased in V2 and V3, with the largest differences being reported in V3, where decoding increased by eccentricity for the blind, did not change for controls, and decreased for aphantasic participants. Contrary to the enhanced feedback observed in blind participants, our findings suggest that the feedback of auditory content to the early visual cortex may be reduced in aphantasic participants. Reduced top-down projections might lead to both less decoding of sounds and reduced subjective experience of visual imagery.

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