Loss of action-related function and connectivity in the blind extrastriate body area
Creators
- 1. Department of Cognitive and Brain Sciences, The Hebrew University of Jerusalem
- 2. Ivcher School of Psychology, The Institute for Brain, Mind and Technology, Reichman University
- 3. Research Group Adaptive Memory and Decision Making, Max Planck Institute for Human Development
- 4. Faculty of Psychology and Educational Sciences, University of Coimbra
- 5. The Ruth & Meir Rosenthal Brain Imaging Center, Reichman University
Description
The Extrastriate Body Area (EBA) participates in the visual perception and motor actions of body parts. We recently showed that EBA’s perceptual function develops independently of visual experience, responding to stimuli with body-part information in a supramodal fashion. However, it is still unclear if the EBA similarly maintains its action-related function. Here, we used fMRI to study motor-evoked responses and connectivity patterns in the congenitally blind brain. We found that, unlike the case of perception, EBA does not develop an action-related response without visual experience. In addition, we show that congenital blindness alters EBA’s connectivity profile in a counterintuitive way—functional connectivity with sensorimotor cortices dramatically decreases, whereas connectivity with perception-related visual occipital cortices remains high. To the best of our knowledge, we show for the first time that action-related functions and connectivity in the visual cortex could be contingent on visuomotor experience. We further discuss the role of the EBA within the context of visuomotor control and predictive coding theory.
Files
fnins-17-973525 (1).pdf
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