Communications Biology (Jan 2024)

Sound suppresses earliest visual cortical processing after sight recovery in congenitally blind humans

  • Suddha Sourav,
  • Ramesh Kekunnaya,
  • Davide Bottari,
  • Idris Shareef,
  • Kabilan Pitchaimuthu,
  • Brigitte Röder

DOI
https://doi.org/10.1038/s42003-023-05749-3
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 14

Abstract

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Abstract Neuroscientific research has consistently shown more extensive non-visual activity in the visual cortex of congenitally blind humans compared to sighted controls; a phenomenon known as crossmodal plasticity. Whether or not crossmodal activation of the visual cortex retracts if sight can be restored is still unknown. The present study, involving a rare group of sight-recovery individuals who were born pattern vision blind, employed visual event-related potentials to investigate persisting crossmodal modulation of the initial visual cortical processing stages. Here we report that the earliest, stimulus-driven retinotopic visual cortical activity (<100 ms) was suppressed in a spatially specific manner in sight-recovery individuals when concomitant sounds accompanied visual stimulation. In contrast, sounds did not modulate the earliest visual cortical response in two groups of typically sighted controls, nor in a third control group of sight-recovery individuals who had suffered a transient phase of later (rather than congenital) visual impairment. These results provide strong evidence for persisting crossmodal activity in the visual cortex after sight recovery following a period of congenital visual deprivation. Based on the time course of this modulation, we speculate on a role of exuberant crossmodal thalamic input which may arise during a sensitive phase of brain development.