Functional MRI of visual cortex predicts training-induced recovery in stroke patients with homonymous visual field defects

J A Elshout, D P Bergsma, A V van den Berg, K V Haak

Research output: Contribution to journalArticleScientificpeer-review

Abstract

Post-chiasmatic damage to the visual system leads to homonymous visual field defects (HVDs), which can severely interfere with daily life activities. Visual Restitution Training (VRT) can recover parts of the affected visual field in patients with chronic HVDs, but training outcome is variable. An untested hypothesis suggests that training potential may be largest in regions with 'neural reserve', where cortical responses to visual stimulation do not lead to visual awareness as assessed by Humphrey perimetry-a standard behavioural visual field test. Here, we tested this hypothesis in a sample of twenty-seven hemianopic stroke patients, who participated in an assiduous 80-hour VRT program. For each patient, we collected Humphrey perimetry and wide-field fMRI-based retinotopic mapping data prior to training. In addition, we used Goal Attainment Scaling to assess whether personal activities in daily living improved. After training, we assessed with a second Humphrey perimetry measurement whether the visual field was improved and evaluated which personal goals were attained. Confirming the hypothesis, we found significantly larger improvements of visual sensitivity at field locations with neural reserve. These visual field improvements implicated both regions in primary visual cortex and higher order visual areas. In addition, improvement in daily life activities correlated with the extent of visual field enlargement. Our findings are an important step toward understanding the mechanisms of visual restitution as well as predicting training efficacy in stroke patients with chronic hemianopia.

Original languageEnglish
Article number102703
Number of pages11
JournalNeuroImage: Clinical
Volume31
DOIs
Publication statusPublished - 2021
Externally publishedYes

Keywords

  • Humans
  • Magnetic Resonance Imaging
  • Stroke/complications
  • Visual Cortex/diagnostic imaging
  • Visual Field Tests
  • Visual Fields

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