Cross-modal activation of the primary visual cortex by auditory stimulation in RCS rats: considerations in visual prosthesis

An important brain re-wiring, the so-called cross-modal plasticity, occurs during progression of retinal degenerative diseases to compensate for lack of visual input. The visual cortex does not go 'unused', instead it is devoted to processing other sensory modalities. In this study we reco...

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Bibliographic Details
Main Authors: Caravaca-Rodriguez, Daniel, Suaning, Gregg J., Barriga-Rivera, Alejandro
Format: Conference Proceeding
Language:English
Subjects:
Animals
Auditory system
Brain modeling
Degenerative diseases
Retina
Visual prosthesis
Visualization
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Summary:An important brain re-wiring, the so-called cross-modal plasticity, occurs during progression of retinal degenerative diseases to compensate for lack of visual input. The visual cortex does not go 'unused', instead it is devoted to processing other sensory modalities. In this study we recorded, in the visual cortex, visual- and auditory-evoked potentials in an anesthetized murine model of retinal degeneration. The latency to the first peak of the recorded local field potentials was used to assess the speed of the response. Visual responses occurred significantly faster in the control group. Conversely, auditory responses appeared significantly faster in animals with retinal degeneration. This suggests the compensatory neural rewiring is optimizing the performance of other sensory modalities, hearing in this case. This phenomenon may play an important role in visual neuro-rehabilitation. Whether or not it can promote or deter the interpretation of artificially encoded neural signals from a visual prosthesis remains to be studied.
ISSN:2694-0604
DOI:10.1109/EMBC48229.2022.9871504