Neural responses in the primary visual cortex of the monkey during perceptual filling-in at the blind spot

The phenomenon of perceptual filling-in demonstrates that physical stimuli presented on the retina do not necessarily correspond to surface perception, and that our visual system has mechanisms with which to interpolate missing information in order to construct continuous surfaces. Among its various forms, filling-in at the blind spot is one of the most remarkable. To study the neural mechanisms involved in filling-in at the blind spot, we recently conducted a recording experiment aimed at determining whether the neurons in the primary visual cortex (V1) that represent the visual field corresponding to the blind spot are activated when filling-in occurs. We found that neurons located in deep layers of the V1, particularly layer 6, respond to large stimuli that cover the blind spot and induce perceptual filling-in. These neurons tended to have very large receptive fields, which extended out of the blind spot, and preferred relatively large stimuli. We believe that neurons in the V1 region representing the blind spot encode information essential for perceptual filling-in at the blind spot.

[1]  Michael A. Paradiso,et al.  The Representation of Brightness in Primary Visual Cortex , 1996, Science.

[2]  J. Kaas,et al.  Reorganization of retinotopic cortical maps in adult mammals after lesions of the retina. , 1990, Science.

[3]  George L. Gerstein,et al.  Feature-linked synchronization of thalamic relay cell firing induced by feedback from the visual cortex , 1994, Nature.

[4]  H. Komatsu,et al.  and Hidehiko Komatsu Primary Visual Cortex Brightness of a Uniform Surface in the Macaque Neural Representation of the Luminance and , 2001 .

[5]  Sheng He,et al.  Filling-in at the natural blind spot contributes to binocular rivalry , 2001, Vision Research.

[6]  H. Komatsu,et al.  Perceptual filling-in at the scotoma following a monocular retinal lesion in the monkey , 1997, Visual Neuroscience.

[7]  H. Komatsu,et al.  Behavioral evidence of filling-in at the blind spot of the monkey , 1994, Visual Neuroscience.

[8]  R. von der Heydt,et al.  Illusory contours and cortical neuron responses. , 1984, Science.

[9]  Vivian O'Brien,et al.  Contour Perception, Illusion and Reality* , 1958 .

[10]  J. Lund,et al.  The origin of efferent pathways from the primary visual cortex, area 17, of the macaque monkey as shown by retrograde transport of horseradish peroxidase , 1975, The Journal of comparative neurology.

[11]  R. L. Gregory,et al.  Perceptual filling in of artificially induced scotomas in human vision , 1991, Nature.

[12]  C. Gilbert Laminar differences in receptive field properties of cells in cat primary visual cortex , 1977, The Journal of physiology.

[13]  T. Wiesel,et al.  Receptive field dynamics in adult primary visual cortex , 1992, Nature.

[14]  R. Haber,et al.  Visual Perception , 2018, Encyclopedia of Database Systems.

[15]  H. Komatsu,et al.  Neural Responses in the Retinotopic Representation of the Blind Spot in the Macaque V1 to Stimuli for Perceptual Filling-In , 2000, The Journal of Neuroscience.

[16]  L. Pessoa,et al.  Finding out about filling-in: a guide to perceptual completion for visual science and the philosophy of perception. , 1998, The Behavioral and brain sciences.

[17]  Yoichi Sugita,et al.  Grouping of image fragments in primary visual cortex , 1999, Nature.

[18]  A. L. I︠A︡rbus Eye Movements and Vision , 1967 .

[19]  H. Komatsu,et al.  Surface representation in the visual system. , 1996, Brain research. Cognitive brain research.

[20]  S. Engel,et al.  Interocular rivalry revealed in the human cortical blind-spot representation , 2001, Nature.

[21]  J. Kaas,et al.  Receptive-field properties of deafferentated visual cortical neurons after topographic map reorganization in adult cats , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[22]  J. Krauskopf Effect of retinal image stabilization on the appearance of heterochromatic targets. , 1963, Journal of the Optical Society of America.

[23]  R Gattass,et al.  Dynamic surrounds of receptive fields in primate striate cortex: a physiological basis for perceptual completion? , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[24]  Leslie G. Ungerleider,et al.  Perceptual filling-in: a parametric study , 1998, Vision Research.

[25]  C. Gilbert,et al.  The projections of cells in different layers of the cat's visual cortex , 1975, The Journal of comparative neurology.

[26]  Peter De Weerd,et al.  Responses of cells in monkey visual cortex during perceptual filling-in of an artificial scotoma , 1995, Nature.