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粗尾婴猴(Galago crassicaudatus)外侧膝状核中W-、X-和Y-样中继细胞的对比敏感度函数。

Contrast-sensitivity functions of W-, X-, and Y-like relay cells in the lateral geniculate nucleus of bush baby, Galago crassicaudatus.

作者信息

Norton T T, Casagrande V A, Irvin G E, Sesma M A, Petry H M

机构信息

Department of Physiological Optics, School of Optometry, University of Alabama, Birmingham 35294.

出版信息

J Neurophysiol. 1988 Jun;59(6):1639-56. doi: 10.1152/jn.1988.59.6.1639.

DOI:10.1152/jn.1988.59.6.1639
PMID:3404199
Abstract
  1. This paper represents a continuation of our effort to examine the relationship between the physiology of distinct classes of primate lateral geniculate nucleus (LGN) cells and spatial vision. The present study focuses on modeling the contrast-sensitivity functions (CSFs) of separate LGN cell classes, examining differences in the CSFs of different classes of LGN cells and comparing the results with behaviorally defined CSFs. 2. CSFs to drifting sinusoidal gratings were obtained from single LGN relay cells in the nocturnal primate, Galago crassicaudatus. The CSFs of 14 X-like, 27 Y-like, and 6 W-like cells with standard center-surround organization were well fit by a difference of Gaussians (DOG) model with small residual errors (mean error per data point +/- SEM = 0.008 +/- 0.002). The larger residual errors shown by a few of the Y-like cells were not due to nonlinearity of spatial summation. 3. The CSFs of eight cells that appeared to have nonstandard center-surround organization (primarily, a silent, suppressive surround) were also well fit by the DOG model. 4. The DOG curves that best fitted the data differed considerably between the three groups. As a group, X-like cells had a small center mechanism (Rc = 0.19 degrees) with high sensitivity (Kc = 76.53) and a small, sensitive surround (Rs = 0.71 degrees; Ks = 5.50). These parameters produced CSFs with high cutoff frequencies (Vcutoff = 2.5 c/deg) and low peak sensitivities (CSpk = 6.1) that occurred at 0.8 c/deg. 5. Y-like cells had a large center mechanism (Rc = 0.46 degrees) with low sensitivity (Kc = 21.16) and a large, insensitive surround (Rs = 2.38 degrees; Ks = 0.81). These parameters produced CSFs with lower cutoff frequencies (Vcutoff = 1.2 c/deg) and higher peak sensitivities (CSpk = 12.5) that occurred at 0.2 c/deg. 6. The few W-like cells that responded to gratings well enough to determine a CSF were quite variable. As a group they had a large center mechanism (Rc = 0.38 degrees) with intermediate sensitivity (Kc = 34.55) and a surround with intermediate size and sensitivity (Rs = 1.59 degrees; Ks = 1.59). These produced CSFs with intermediate cutoffs (Vcutoff = 1.6 c/deg) and low peak sensitivities (CSpk = 5.0) occurring at 0.4 c/deg.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 本文是我们研究灵长类外侧膝状体核(LGN)不同细胞类型的生理学与空间视觉之间关系的延续。本研究重点在于对不同LGN细胞类型的对比敏感度函数(CSF)进行建模,研究不同类型LGN细胞CSF的差异,并将结果与行为学定义的CSF进行比较。2. 从夜行动物粗尾婴猴的单个LGN中继细胞中获取了对漂移正弦光栅的CSF。14个X样、27个Y样和6个W样具有标准中心-周边组织的细胞的CSF,通过高斯差分(DOG)模型能很好地拟合,残差误差较小(每个数据点的平均误差±标准误 = 0.008 ± 0.002)。一些Y样细胞显示出的较大残差误差并非由于空间总和的非线性。3. 8个似乎具有非标准中心-周边组织(主要是沉默、抑制性周边)的细胞的CSF,也能被DOG模型很好地拟合。4. 最能拟合数据的DOG曲线在三组之间有很大差异。作为一组,X样细胞具有较小的中心机制(Rc = 0.19度),敏感度高(Kc = 76.53),以及较小、敏感的周边(Rs = 0.71度;Ks = 5.50)。这些参数产生的CSF具有高截止频率(Vcutoff = 2.5周/度)和在0.8周/度处出现的低峰值敏感度(CSpk = 6.1)。5. Y样细胞具有较大的中心机制(Rc = 0.46度),敏感度低(Kc = 21.16),以及较大、不敏感的周边(Rs = 2.38度;Ks = 0.81)。这些参数产生的CSF具有较低的截止频率(Vcutoff = 1.2周/度)和在0.2周/度处出现的较高峰值敏感度(CSpk = 12.5)。6. 少数对光栅反应良好足以确定CSF的W样细胞变化很大。作为一组,它们具有较大的中心机制(Rc = 0.38度),敏感度中等(Kc = 34.55),以及大小和敏感度中等的周边(Rs = 1.59度;Ks = 1.59)。这些产生的CSF具有中等截止频率(Vcutoff = 1.6周/度)和在0.4周/度处出现的低峰值敏感度(CSpk = 5.0)。(摘要截断于400字)

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