4.8 Article

Spared perilesional V1 activity underlies training-induced recovery of luminance detection sensitivity in cortically-blind patients

Journal

NATURE COMMUNICATIONS
Volume 12, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s41467-021-26345-1

Keywords

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Funding

  1. NIH [EY027314, EY021209, P30 EY001319, T32 EY007125]
  2. Research to Prevent Blindness (RPB) Foundation
  3. Marie Sklodowska-Curie Action Individual Fellowship [799291]
  4. NIH (pre-doctoral NRSA) [EY025918]
  5. Marie Curie Actions (MSCA) [799291] Funding Source: Marie Curie Actions (MSCA)

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Research suggests that perceptual training can restore visual functions in patients with chronic cortically-induced blindness by recruiting residual visual functions and inducing plastic changes within the V1 region. Pre-training V1 activity predicts the recovery amount of luminance detection sensitivity, while training also alters population receptive field properties within residual V1 circuits.
Damage to the primary visual cortex (V1) causes homonymous visual-field loss long considered intractable. Multiple studies now show that perceptual training can restore visual functions in chronic cortically-induced blindness (CB). A popular hypothesis is that training can harness residual visual functions by recruiting intact extrageniculostriate pathways. Training may also induce plastic changes within spared regions of the damaged V1. Here, we link changes in luminance detection sensitivity with retinotopic fMRI activity before and after visual discrimination training in eleven patients with chronic, stroke-induced CB. We show that spared V1 activity representing perimetrically-blind locations prior to training predicts the amount of training-induced recovery of luminance detection sensitivity. Additionally, training results in an enlargement of population receptive fields in perilesional V1, which increases blind-field coverage and may support further recovery with subsequent training. These findings uncover fundamental changes in perilesional V1 cortex underlying training-induced restoration of conscious luminance detection sensitivity in CB. In humans, stroke damage to V1 causes large visual field defects. Spared V1 activity prior to training predicts the amount of training-induced recovery in luminance detection sensitivity. Moreover, visual training changes population receptive field properties within residual V1 circuits.

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