先天性耳聋会影响初级视觉皮层的结构和功能结构吗?

Q4 Medicine
C. R. Smittenaar, M. MacSweeney, M. Sereno, D. S. Schwarzkopf
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引用次数: 18

摘要

耳聋会导致对剩余感官的更多依赖。目前尚不清楚完整感觉的皮质结构是否优化以补偿丢失的输入。本研究利用功能性磁共振成像(fMRI)对听力正常和先天性失聪的参与者进行了初级视觉皮层(V1)的广域群体感受野(pRF)映射,这些参与者都是在10岁以后学习手语的。我们发现,与听力正常的参与者相比,聋人编码外围视野的pRFs更大。这可能是由于在聋人组中,pRF轮廓的促进中心区域较大,集中在近周和远周。两组间pRF密度具有可比性,表明聋人组pRF重叠较多。这可能表明,一种粗糙的编码策略是聋人外围视觉技能增强的基础。耳聋组V1皮质厚度也减少。这些发现表明,耳聋在视觉皮层的早期阶段引起结构和功能的可塑性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Does Congenital Deafness Affect the Structural and Functional Architecture of Primary Visual Cortex?
Deafness results in greater reliance on the remaining senses. It is unknown whether the cortical architecture of the intact senses is optimized to compensate for lost input. Here we performed widefield population receptive field (pRF) mapping of primary visual cortex (V1) with functional magnetic resonance imaging (fMRI) in hearing and congenitally deaf participants, all of whom had learnt sign language after the age of 10 years. We found larger pRFs encoding the peripheral visual field of deaf compared to hearing participants. This was likely driven by larger facilitatory center zones of the pRF profile concentrated in the near and far periphery in the deaf group. pRF density was comparable between groups, indicating pRFs overlapped more in the deaf group. This could suggest that a coarse coding strategy underlies enhanced peripheral visual skills in deaf people. Cortical thickness was also decreased in V1 in the deaf group. These findings suggest deafness causes structural and functional plasticity at the earliest stages of visual cortex.
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来源期刊
Open Neuroimaging Journal
Open Neuroimaging Journal Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
0.70
自引率
0.00%
发文量
3
期刊介绍: The Open Neuroimaging Journal is an Open Access online journal, which publishes research articles, reviews/mini-reviews, and letters in all important areas of brain function, structure and organization including neuroimaging, neuroradiology, analysis methods, functional MRI acquisition and physics, brain mapping, macroscopic level of brain organization, computational modeling and analysis, structure-function and brain-behavior relationships, anatomy and physiology, psychiatric diseases and disorders of the nervous system, use of imaging to the understanding of brain pathology and brain abnormalities, cognition and aging, social neuroscience, sensorimotor processing, communication and learning.
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