面部与物体加工的早期分离:一项脑磁图研究。
Early dissociation of face and object processing: a magnetoencephalographic study.
作者信息
Susac Ana, Ilmoniemi Risto J, Pihko Elina, Nurminen Jussi, Supek Selma
机构信息
Department of Physics, Faculty of Science, University of Zagreb, Zagreb, Croatia.
出版信息
Hum Brain Mapp. 2009 Mar;30(3):917-27. doi: 10.1002/hbm.20557.
Abstract
The early dissociation in cortical responses to faces and objects was explored with magnetoencephalographic (MEG) recordings and source localization. To control for differences in the low-level stimulus features, which are known to modulate early brain responses, we created a novel set of stimuli so that their combinations did not have any differences in the visual-field location, spatial frequency, or luminance contrast. Differing responses to face and object (flower) stimuli were found at about 100 ms after stimulus onset in the occipital cortex. Our data also confirm that the brain response to a complex visual stimulus is not merely a sum of the responses to its constituent parts; the nonlinearity in the response was largest for meaningful stimuli.
摘要
利用脑磁图(MEG)记录和源定位技术,探索了皮质对面部和物体反应的早期分离现象。为了控制已知可调节早期大脑反应的低水平刺激特征差异,我们创建了一组新的刺激物,使它们在视野位置、空间频率或亮度对比度方面没有任何差异。在枕叶皮质中,刺激开始后约100毫秒时,发现对面部和物体(花朵)刺激的反应不同。我们的数据还证实,大脑对复杂视觉刺激的反应不仅仅是对其组成部分反应的总和;有意义刺激的反应非线性最大。
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