Journal
FRONTIERS IN HUMAN NEUROSCIENCE
Volume 8, Issue -, Pages -Publisher
FRONTIERS RESEARCH FOUNDATION
DOI: 10.3389/fnhum.2014.00177
Keywords
visual attention; deaf; human; fMRI; Heschl's gyrus; auditory cortex
Categories
Funding
- National Science Foundation Graduate Research Fellowship (NSF) [DGE-0802267]
- National Institute of Health [HD065879]
Ask authors/readers for more resources
Brain reorganization associated with altered sensory experience clarifies the critical role of neuroplasticity in development. An example is enhanced peripheral visual processing associated with congenital deafness, but the neural systems supporting this have not been fully characterized. A gap in our understanding of deafness-enhanced peripheral vision is the contribution of primary auditory cortex. Previous studies of auditory cortex that use anatomical normalization across participants were limited by inter-subject variability of Heschl's gyrus. In addition to reorganized auditory cortex(cross-modal plasticity), a second gap in our understanding is the contribution of altered modality-specific cortices(visual intramodal plasticity in this case), as well as supramodal and multisensory cortices, especially when target detection is required across contrasts. Here we address these gaps by comparing fMRI signal change for peripheral vs. perifoveal visual stimulation (11-15 degrees vs. 2-7 degrees) in congenitally deaf and hearing participants in a blocked experimental design with two analytical approaches: a Heschl's gyrus region of interest analysis and a whole brain analysis. Our results using individually-defined primary auditory cortex(Heschl's gyrus) indicate that fMRI signal change for more peripherals timuli was greater than perifovealin deaf but not inhearing participants. Whole-brain analyses revealed differences between deaf and hearing participants for peripheralvs. perifovealvisual processing in extrast riate visual cortex including primary auditory cortex, MT+/V5, superior-temporal auditory, and multisensory and/or supramodal regions, suchasposterior parietal cortex(PPC), front aleye fields, anteriorcingulate, and supplementary eye fields. Overall, these data demonstrat ethe contribution of neuroplasticity inmultiplesy stems including primary auditory cortex, supramodal, and multi sensory regions, to altered visual processing in congenitally deaf adults.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available