Visual Experience Shapes the Neural Networks Remapping Touch into External Space

Crollen, Virginie;Lazzouni, Latifa;Rezk, Mohamed;Antoine Bellemare;Collignon, Olivier;et.al.
(2017) The Journal of Neuroscience — Vol. 37, p. 10097-10103 (2017)

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Abstract
Localizing touch relies on the activation of skin-based and externally defined spatial frames of reference. Psychophysical studies have demonstrated that early visual deprivation prevents the automatic remapping of touch into external space.Weused fMRI to characterize how visual experience impacts the brain circuits dedicated to the spatial processing of touch. Sighted and congenitally blind humans performed a tactile temporal order judgment (TOJ) task, either with the hands uncrossed or crossed over the body midline. Behavioral data confirmed that crossing the hands has a detrimental effect on TOJ judgments in sighted but not in early blind people. Crucially, the crossed hand posture elicited enhanced activity, when compared with the uncrossed posture, in a frontoparietal network in the sighted group only. Psychophysiological interaction analysis revealed, however, that the congenitally blind showed enhanced functional connectivity between parietal and frontal regions in the crossed versus uncrossed hand postures. Our results demonstrate that visual experience scaffolds the neural implementation of the location of touch in space.
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Crollen, V., Lazzouni, L., Rezk, M., Antoine Bellemare, Franco Lepore, & Collignon, O. (2017). Visual Experience Shapes the Neural Networks Remapping Touch into External Space. The Journal of Neuroscience, 37, 10097-10103. https://doi.org/10.1523/JNEUROSCI.1213-17.2017 (Original work published 2017)