Kogan C S, Bertone A, Cornish K, Boutet I, Der Kaloustian V M, Andermann E, Faubert J, Chaudhuri A
Department of Psychology, 1205 Dr. Penfield Avenue, Stewart Biologic Sciences Building, Room W8/1, McGill University, Montréal, Québec, H3A 1B1, Canada.
Neurology. 2004 Nov 9;63(9):1634-9. doi: 10.1212/01.wnl.0000142987.44035.3b.
Fragile X syndrome (FXS) is associated with neurologic deficits recently attributed to the magnocellular pathway of the lateral geniculate nucleus.
To test the hypotheses that FXS individuals 1) have a pervasive visual motion perception impairment affecting neocortical circuits in the parietal lobe and 2) have deficits in integrative neocortical mechanisms necessary for perception of complex stimuli.
Psychophysical tests of visual motion and form perception defined by either first-order (luminance) or second-order (texture) attributes were used to probe early and later occipito-temporal and occipito-parietal functioning.
When compared to developmental- and age-matched controls, FXS individuals displayed severe impairments in first- and second-order motion perception. This deficit was accompanied by near normal perception for first-order form stimuli but not second-order form stimuli.
Impaired visual motion processing for first- and second-order stimuli suggests that both early- and later-level neurologic function of the parietal lobe are affected in Fragile X syndrome (FXS). Furthermore, this deficit likely stems from abnormal input from the magnocellular compartment of the lateral geniculate nucleus. Impaired visual form and motion processing for complex visual stimuli with normal processing for simple (i.e., first-order) form stimuli suggests that FXS individuals have normal early form processing accompanied by a generalized impairment in neurologic mechanisms necessary for integrating all early visual input.
脆性X综合征(FXS)与近期归因于外侧膝状体大细胞通路的神经功能缺陷有关。
检验以下假设:1)脆性X综合征个体存在影响顶叶新皮质回路的普遍视觉运动感知障碍;2)在感知复杂刺激所需的新皮质整合机制方面存在缺陷。
采用由一阶(亮度)或二阶(纹理)属性定义的视觉运动和形式感知的心理物理学测试,以探究早期和晚期枕颞叶及枕顶叶功能。
与发育和年龄匹配的对照组相比,脆性X综合征个体在一阶和二阶运动感知方面表现出严重障碍。这种缺陷伴随着对一阶形式刺激近乎正常的感知,但对二阶形式刺激则不然。
一阶和二阶刺激的视觉运动处理受损表明,脆性X综合征(FXS)会影响顶叶的早期和晚期神经功能。此外,这种缺陷可能源于外侧膝状体大细胞部分的异常输入。对于复杂视觉刺激,视觉形式和运动处理受损,而对简单(即一阶)形式刺激的处理正常,这表明脆性X综合征个体具有正常的早期形式处理能力,但在整合所有早期视觉输入所需的神经机制方面存在普遍障碍。
