Crowder N A, van Kleef J, Dreher B, Ibbotson M R
Visual Sciences, Research School of Biological Sciences, Australian National University, Canberra, ACT, Australia 2601.
J Neurophysiol. 2007 Sep;98(3):1155-66. doi: 10.1152/jn.00433.2007. Epub 2007 May 30.
One of the best-known dichotomies in neuroscience is the division of neurons in the mammalian primary visual cortex into simple and complex cells. Simple cells have receptive fields with separate on and off subregions and give phase-sensitive responses to moving gratings, whereas complex cells have uniform receptive fields and are phase invariant. The phase sensitivity of a cell is calculated as the ratio of the first Fourier coefficient (F1) to the mean time-average (Fo) of the response to moving sinusoidal gratings at 100% contrast. Cells are then classified as simple (F1/Fo >1) or complex (F1/Fo <1). We manipulated cell responses by changing the stimulus contrast or through adaptation. The F(1)/F(0) ratios of cells defined as complex at 100% contrast increased at low contrasts and following adaptation. Conversely, the F1/Fo ratios remained constant for cells defined as simple at 100% contrast. The latter cell type was primarily located in thalamorecipient layers 4 and 6. Many cells initially classified as complex exhibit F1/Fo >1 at low contrasts and after adaptation (particularly in layer 4). The results are consistent with the spike-threshold hypothesis, which suggests that the division of cells into two types arises from the nonlinear interaction of spike threshold with membrane potential responses.
神经科学中最著名的二分法之一是将哺乳动物初级视觉皮层中的神经元分为简单细胞和复杂细胞。简单细胞的感受野有独立的开和关子区域,并对移动的光栅给出相位敏感反应,而复杂细胞有均匀的感受野且相位不变。细胞的相位敏感性通过对100%对比度下移动正弦光栅的反应的第一个傅里叶系数(F1)与平均时间平均值(Fo)的比值来计算。然后将细胞分类为简单细胞(F1/Fo>1)或复杂细胞(F1/Fo<1)。我们通过改变刺激对比度或通过适应来操纵细胞反应。在100%对比度下被定义为复杂细胞的F(1)/F(0)比值在低对比度和适应后增加。相反,在100%对比度下被定义为简单细胞的F1/Fo比值保持恒定。后一种细胞类型主要位于丘脑接受层4和6。许多最初被分类为复杂细胞的细胞在低对比度和适应后(特别是在第4层)表现出F1/Fo>1。这些结果与尖峰阈值假说一致,该假说认为细胞分为两种类型是由尖峰阈值与膜电位反应的非线性相互作用引起的。
