Kuriki Ichiro, Sun Pei, Ueno Kenichi, Tanaka Keiji, Cheng Kang
Research Institute of Electrical Communication, Tohoku University, Sendai, Japan.
RIKEN Brain Science Institute, Wako-shi, Japan Current Address: Department of Psychology, Tsinghua University, Beijing, China.
Cereb Cortex. 2015 Dec;25(12):4869-84. doi: 10.1093/cercor/bhv198. Epub 2015 Sep 30.
The variability of color-selective neurons in human visual cortex is considered more diverse than cone-opponent mechanisms. We addressed this issue by deriving histograms of hue-selective voxels measured using fMRI with a novel stimulation paradigm, where the stimulus hue changed continuously. Despite the large between-subject difference in hue-selective histograms, individual voxels exhibited selectivity for intermediate hues, such as purple, cyan, and orange, in addition to those along cone-opponent axes. In order to rule the possibility out that the selectivity for intermediate hues emerged through spatial summation of activities of neurons selectively responding to cone-opponent signals, we further tested hue-selective adaptations in intermediate directions of cone-opponent axes, by measuring responses to 4 diagonal hues during concurrent adaptation to 1 of the 4 hues. The selective and unidirectional reduction in response to the adapted hue lends supports to our argument that cortical neurons respond selectively to intermediate hues.
人类视觉皮层中颜色选择性神经元的变异性被认为比锥体对立机制更加多样。我们通过使用一种新颖的刺激范式(其中刺激色调连续变化),利用功能磁共振成像(fMRI)测量色调选择性体素的直方图,来解决这个问题。尽管在色调选择性直方图中个体之间存在很大差异,但除了沿着锥体对立轴的那些色调外,单个体素还表现出对诸如紫色、青色和橙色等中间色调的选择性。为了排除中间色调的选择性是通过选择性响应锥体对立信号的神经元活动的空间总和而出现的可能性,我们通过测量在同时适应4种色调中的1种时对4种对角色调的反应,进一步测试了锥体对立轴中间方向上的色调选择性适应。对适应色调的反应的选择性和单向降低支持了我们的论点,即皮层神经元对中间色调有选择性反应。