期刊论文详细信息
NEUROPSYCHOLOGIA 卷:100
Developmental visual perception deficits with no indications of prosopagnosia in a child with abnormal eye movements
Article
Gilaie-Dotan, Sharon1,2  Doron, Ravid3,4 
[1] Bar Ilan Univ, Dept Optometry & Visual Sci, Ramat Gan, Israel
[2] UCL Inst Cognit Neurosci, London, England
[3] Hadassah Acad Coll, Dept Optometry & Vis Sci, Jerusalem, Israel
[4] Tel A Viv Univ, Sackler Fac Med, Goldschleger Eye Res Inst, Tel Hashomer, Israel
关键词: Object recognition;    Contour integration;    Geometry;    Eye movements;    Pursuit;    Saccades;    Developmental visual agnosia;    Face perception;   
DOI  :  10.1016/j.neuropsychologia.2017.04.014
来源: Elsevier
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【 摘 要 】

Visual categories are associated with eccentricity biases in high-order visual cortex: Faces and reading with foveally-biased regions, while common objects and space with mid- and peripherally-biased regions. As face perception and reading are among the most challenging human visual skills, and are often regarded as the peak achievements of a distributed neural network supporting common objects perception, it is unclear why objects, which also rely on foveal vision to be processed, are associated with mid-peripheral rather than with a foveal bias. Here, we studied BN, a 9 y.o. boy who has normal basic-level vision, abnormal (limited) oculomotor pursuit and saccades, and shows developmental object and contour integration deficits but with no indication of prosopagnosia. Although we cannot infer causation from the data presented here, we suggest that normal pursuit and saccades could be critical for the development of contour integration and object perception. While faces and perhaps reading, when fixated upon, take up a small portion of central visual field and require only small eye movements to be properly processed, common objects typically prevail in mid-peripheral visual field and rely on longer-distance voluntary eye movements as saccades to be brought to fixation. While retinal information feeds into early visual cortex in an eccentricity orderly manner, we hypothesize that propagation of non-foveal information to mid and high-order visual cortex critically relies on circuitry involving eye movements. Limited or atypical eye movements, as in the case of BN, may hinder normal information flow to mid-eccentricity biased high-order visual cortex, adversely affecting its development and consequently inducing visual perceptual deficits predominantly for categories associated with these regions.

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