灵长类视觉通路中对比度的一种新编码。
A new code for contrast in the primate visual pathway.
作者信息
Tailby Chris, Solomon Samuel G, Dhruv Neel T, Majaj Najib J, Sokol Sach H, Lennie Peter
机构信息
Center for Neural Science, New York University, New York, New York 10003, USA.
出版信息
J Neurosci. 2007 Apr 4;27(14):3904-9. doi: 10.1523/JNEUROSCI.5343-06.2007.
Abstract
We characterize a hitherto undocumented type of neuron present in the regions bordering the principal layers of the macaque lateral geniculate nucleus. Neurons of this type were distinguished by a high and unusually regular maintained discharge that was suppressed by spatiotemporal modulation of luminance or chromaticity within the receptive field. The response to any effective stimulus was a reduction in discharge, reminiscent of the "suppressed-by-contrast" cells of the cat retina. To a counterphase-modulated grating, the response was a phase-insensitive suppression modulated at twice the stimulus frequency, implying a receptive field comprised of multiple mechanisms that generate rectifying responses. This distinctive nonlinearity makes the neurons well suited to computing a measure of contrast energy; such a signal might be important in regulating sensitivity early in visual cortex.
摘要
我们对猕猴外侧膝状核主要层边界区域中存在的一种迄今未被记录的神经元类型进行了表征。这种类型的神经元的特点是具有高度且异常规则的持续放电,该放电会受到感受野内亮度或色度的时空调制的抑制。对任何有效刺激的反应都是放电减少,这让人联想到猫视网膜中“对比抑制”细胞。对于反相调制光栅,反应是在刺激频率两倍处调制的相位不敏感抑制,这意味着感受野由多个产生整流反应的机制组成。这种独特的非线性使得这些神经元非常适合计算对比度能量的度量;这样的信号可能在调节视觉皮层早期的敏感度方面很重要。
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