Abstract
Unilateral lesions of visual cortex have the secondary consequence of suppressing visual circuits in the midbrain superior colliculus (SC), collectively producing blindness in contralesional space (“hemianopia”). Recent studies have demonstrated that SC visual responses and contralesional vision can be reinstated by a non‐invasive multisensory training procedure in which spatiotemporally concordant visual‐auditory pairs are repeatedly presented within the blind hemifield. Despite this recovery of visual responsiveness, the loss of visual cortex was expected to result in permanent deficits in that hemifield, especially when visual events in both hemifields compete for attention and access to the brain's visuomotor circuitry. This was evaluated in the present study in a visual choice paradigm in which the two visual hemifields of recovered cats were simultaneously stimulated with equally valent visual targets. Surprisingly, the expected disparity was not found, and some animals even preferred stimuli presented in the previously blind hemifield. This preference persisted across multiple stimulus intensity levels and there was no indication that animals were less aware of cues in the previously blind hemifield than in its spared counterpart. Furthermore, when auditory cues were combined with visual cues, the enhanced performance they produced on a visual task was no greater in the normal than in the previously blind hemifield. These observations suggest that the multisensory rehabilitation paradigm revealed greater inherent visual information processing potential in the previously blind hemifield than was believed possible given the loss of visual cortex.
Highlights
A common consequence of extensive damage to visual cortex on one side of the brain is a profound blindness in contralesionalAbbreviations: LED, Light‐emitting diode; mcd, millicandelas; SC, superior colliculus
These stimuli were delivered at randomly selected locations within the central 90° of the visual field
The primary finding was that the multisensory exposure procedure reinstated visual detection, localization and orientation performance in the previously blind hemifield, and did so at a level that rivaled that in the normal hemifield and in normal animals
Summary
A common consequence of extensive damage to visual cortex on one side of the brain is a profound blindness in contralesional. A sensory training program that leverages the multisensory nature of the cat SC has proven to be highly effective in reversing hemianopia It involves repeatedly presenting a pair of congruent visual‐auditory stimuli in the blind hemifield (Jiang et al, 2015). The exposure paradigm reinstates the visual responses of multisensory SC neurons that were compromised by the visual cortex lesion, thereby reinstating vision in the blind hemifield (Jiang et al, 2015) It does so despite the normal complement of (inhibitory) inputs from the contralesional hemisphere, presumably by restoring the functional interhemispheric balance. The results of these tests were unexpected: responses to stimuli in the rehabilitated field were robust to competition from the intact field
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