2022
DOI: 10.3389/fpsyg.2022.938842
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Somatosensory processing in deaf and deafblind individuals: How does the brain adapt as a function of sensory and linguistic experience? A critical review

Abstract: How do deaf and deafblind individuals process touch? This question offers a unique model to understand the prospects and constraints of neural plasticity. Our brain constantly receives and processes signals from the environment and combines them into the most reliable information content. The nervous system adapts its functional and structural organization according to the input, and perceptual processing develops as a function of individual experience. However, there are still many unresolved questions regard… Show more

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Cited by 2 publications
(2 citation statements)
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“…The brain areas traditionally associated with the processing of sounds (i.e., the auditory cortex) can respond also to tactile stimulation in humans (e.g., Foxe et al, 2002) and other animals (e.g., macaque monkeys: Kayser et al, 2005). However, it is precisely in deaf individuals that this interaction becomes most pronounced, as evidenced primarily in brain imaging research that documented strong responses to haptic stimuli in the deafferented auditory cortex of congenitally deaf participants (Auer et al, 2007;Karns et al, 2012; for review see: Villwock & Grin, 2022). In such a context, it may be speculated that for hearing individuals, it would be advantageous to keep audition and haptic inputs clearly distinct, given the great margin for ambiguity related to their mutual overlap from physiology to neural processing.…”
Section: Discussionmentioning
confidence: 99%
“…The brain areas traditionally associated with the processing of sounds (i.e., the auditory cortex) can respond also to tactile stimulation in humans (e.g., Foxe et al, 2002) and other animals (e.g., macaque monkeys: Kayser et al, 2005). However, it is precisely in deaf individuals that this interaction becomes most pronounced, as evidenced primarily in brain imaging research that documented strong responses to haptic stimuli in the deafferented auditory cortex of congenitally deaf participants (Auer et al, 2007;Karns et al, 2012; for review see: Villwock & Grin, 2022). In such a context, it may be speculated that for hearing individuals, it would be advantageous to keep audition and haptic inputs clearly distinct, given the great margin for ambiguity related to their mutual overlap from physiology to neural processing.…”
Section: Discussionmentioning
confidence: 99%
“…Finally, it can be argued that more studies are required to be conducted on tactile exploratory activities in individuals with vision impairment and multiple disabilities, in order to deepen our understanding in the development of their somatosensory system and therefore design and conduct more effective personalized and early intervention programs (Villwock & Grin, 2022;Withagen et al, 2010).…”
Section: Discussionmentioning
confidence: 99%