Norcia Anthony M, Gerhard Holly E, Meredith Wesley J
Department of Psychology, Stanford University, Stanford, California 94305
Department of Psychology, Stanford University, Stanford, California 94305.
J Neurosci. 2017 Jun 7;37(23):5608-5619. doi: 10.1523/JNEUROSCI.3570-16.2017. Epub 2017 May 4.
Stereopsis is the primary cue underlying our ability to make fine depth judgments. In adults, depth discriminations are supported largely by relative rather than absolute binocular disparity, and depth is perceived primarily for horizontal rather than vertical disparities. Although human infants begin to exhibit disparity-specific responses between 3 and 5 months of age, it is not known how relative disparity mechanisms develop. Here we show that the specialization for relative disparity is highly immature in 4- to 6-month-old infants but is adult-like in 4- to 7-year-old children. Disparity-tuning functions for horizontal and vertical disparities were measured using the visual evoked potential. Infant relative disparity thresholds, unlike those of adults, were equal for vertical and horizontal disparities. Their horizontal disparity thresholds were a factor of ∼10 higher than adults, but their vertical disparity thresholds differed by a factor of only ∼4. Horizontal relative disparity thresholds for 4- to 7-year-old children were comparable with those of adults at ∼0.5 arcmin. To test whether infant immaturity was due to spatial limitations or insensitivity to interocular correlation, highly suprathreshold horizontal and vertical disparities were presented in alternate regions of the display, and the interocular correlation of the interdigitated regions was varied from 0% to 100%. This manipulation regulated the availability of coarse-scale relative disparity cues. Adult and infant responses both increased with increasing interocular correlation by similar magnitudes, but adult responses increased much more for horizontal disparities, further evidence for qualitatively immature stereopsis based on relative disparity at 4-6 months of age. Stereopsis, our ability to sense depth from horizontal image disparity, is among the finest spatial discriminations made by the primate visual system. Fine stereoscopic depth discriminations depend critically on comparisons of disparity relationships in the image that are supported by relative disparity cues rather than the estimation of single, absolute disparities. Very young human and macaque infants are sensitive to absolute disparity, but no previous study has specifically studied the development of relative disparity sensitivity, a hallmark feature of adult stereopsis. Here, using high-density EEG recordings, we show that 4- to 6-month-old infants display both quantitative and qualitative response immaturities for relative disparity information. Relative disparity responses are adult-like no later than 4-7 years of age.
立体视觉是我们做出精确深度判断能力的主要线索。在成年人中,深度辨别主要由相对而非绝对的双眼视差支持,并且深度主要是针对水平视差而非垂直视差被感知到的。虽然人类婴儿在3至5个月大时开始表现出特定于视差的反应,但相对视差机制是如何发展的尚不清楚。在这里,我们表明,4至6个月大的婴儿中相对视差的特化非常不成熟,但在4至7岁的儿童中则类似成年人。使用视觉诱发电位测量水平和垂直视差的视差调谐函数。与成年人不同,婴儿的垂直和水平视差的相对视差阈值是相等的。他们的水平视差阈值比成年人高约10倍,但他们的垂直视差阈值仅相差约4倍。4至7岁儿童的水平相对视差阈值与成年人的相当,约为0.5角分。为了测试婴儿的不成熟是由于空间限制还是对两眼相关性不敏感,在显示器的交替区域呈现高度超阈值的水平和垂直视差,并且交叉区域的两眼相关性从0%变化到100%。这种操作调节了粗尺度相对视差线索的可用性。成年人和婴儿的反应都随着两眼相关性的增加而以相似的幅度增加,但成年人对水平视差的反应增加得更多,这进一步证明了4至6个月大时基于相对视差的定性不成熟的立体视觉。立体视觉,即我们从水平图像视差感知深度的能力,是灵长类视觉系统做出的最精细的空间辨别之一。精细的立体深度辨别关键取决于由相对视差线索支持的图像中视差关系的比较,而不是单一绝对视差的估计。非常年幼的人类和猕猴婴儿对绝对视差敏感,但之前没有研究专门研究相对视差敏感性的发展,这是成人立体视觉的一个标志性特征。在这里,使用高密度脑电图记录,我们表明4至6个月大的婴儿对相对视差信息表现出定量和定性的反应不成熟。相对视差反应不迟于4至7岁时类似成年人。