Temporal encoding of two-dimensional patterns by single units in primate primary visual cortex. I. Stimulus-response relations

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Temporal encoding of two-dimensional patterns by single units in primate primary visual cortex. I. Stimulus-response relations

B. J. Richmond, L. M. Optican and H. Spitzer
Laboratory of Neuropsychology, National Institute of Mental Health, Bethesda, Maryland 20892.

1. Previously we developed a new approach for investigating visual system neuronal activity in which single neurons are considered to be communication channels transmitting stimulus-dependent codes in their responses. Application of this approach to the stimulus-response relations of inferior temporal (IT) neurons showed that these carry stimulus-dependent information in the temporal modulation as well as in the strength of their responses. IT cortex is a late station in the visual processing stream. Presumably the neuronal properties arise from the properties of the inputs. However, the discovery that IT neuronal spike trains transmit information in stimulus-dependent temporally modulated codes could not be assumed to be true for those earlier stations, so the techniques used in the earlier study were applied to single-striate cortical neurons in the studies reported here. 2. Single-striate cortical neurons were recorded from three awake, fixating rhesus monkeys. The neurons were stimulated by two sets of patterns. The first set was made up of 128 black-and-white patterns based on a complete, orthogonal set of two-dimensional Walsh-Hadamard functions. These stimuli appear as combinations of black-and-white rectangles and squares, and they fully span the range of all possible black-and-white pictures that can be constructed in an 8 x 8 grid. Except for the stimulus that appeared as an all-white or all-black square, each stimulus had equal areas of white and black. The second stimulus set was made up of single bars constructed in the same 8 x 8 grid as the Walsh stimuli. These were presented both as black against a gray background and white against a gray background. The stimuli were centered on the receptive field, and each member of the stimulus set was presented once before any stimulus appeared again. 3. The responses of 21 striate cortical neurons were recorded and analyzed. Two were identified as simple cells and the other 19 as complex cells according to the criteria originally used by Hubel and Wiesel. The stimulus set elicited a wide variety of response strengths and patterns from each neuron. The responses from both the bars and the Walsh set could be used to differentiate and classify simple and complex cells. 4. The responses of both simple and complex cells showed striking stimulus-related strength and temporal modulation. For all of the complex cells there were instances where the responses to a stimulus and its contrast-reversed mate were substantially different in response strength or pattern, or both.(ABSTRACT TRUNCATED AT 400 WORDS)

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				J. J. DiCarlo and J. H. R. Maunsell Using Neuronal Latency to Determine Sensory-Motor Processing Pathways in Reaction Time Tasks J Neurophysiol, May 1, 2005; 93(5): 2974 - 2986. [Abstract] [Full Text] [PDF]

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				D. L. Sheinberg and N. K. Logothetis Noticing Familiar Objects in Real World Scenes: The Role of Temporal Cortical Neurons in Natural Vision J. Neurosci., February 15, 2001; 21(4): 1340 - 1350. [Abstract] [Full Text] [PDF]

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				M. C. Wiener and B. J. Richmond Using Response Models to Estimate Channel Capacity for Neuronal Classification of Stationary Visual Stimuli Using Temporal Coding J Neurophysiol, December 1, 1999; 82(6): 2861 - 2875. [Abstract] [Full Text] [PDF]

				M. W. Oram, M. C. Wiener, R. Lestienne, and B. J. Richmond Stochastic Nature of Precisely Timed Spike Patterns in Visual System Neuronal Responses J Neurophysiol, June 1, 1999; 81(6): 3021 - 3033. [Abstract] [Full Text] [PDF]

				S. Lee and R. Blake Visual Form Created Solely from Temporal Structure Science, May 14, 1999; 284(5417): 1165 - 1168. [Abstract] [Full Text]

ARTICLES

Temporal encoding of two-dimensional patterns by single units in primate primary visual cortex. I. Stimulus-response relations

				F. Gabbiani, H. G. Krapp, and G. Laurent Computation of Object Approach by a Wide-Field, Motion-Sensitive Neuron J. Neurosci., February 1, 1999; 19(3): 1122 - 1141. [Abstract] [Full Text] [PDF]

				R. K. Snider, J. F. Kabara, B. R. Roig, and A. B. Bonds Burst Firing and Modulation of Functional Connectivity in Cat Striate Cortex J Neurophysiol, August 1, 1998; 80(2): 730 - 744. [Abstract] [Full Text] [PDF]

				E. D. Gershon, M. C. Wiener, P. E. Latham, and B. J. Richmond Coding Strategies in Monkey V1 and Inferior Temporal Cortices J Neurophysiol, March 1, 1998; 79(3): 1135 - 1144. [Abstract] [Full Text] [PDF]

				D. Lee and J. G. Malpeli Effects of Saccades on the Activity of Neurons in the Cat Lateral Geniculate Nucleus J Neurophysiol, February 1, 1998; 79(2): 922 - 936. [Abstract] [Full Text] [PDF]

				T. W. Kjaer, T. J. Gawne, J. A. Hertz, and B. J. Richmond Insensitivity of V1 Complex Cell Responses to Small Shifts in the Retinal Image of Complex Patterns J Neurophysiol, December 1, 1997; 78(6): 3187 - 3197. [Abstract] [Full Text] [PDF]

				D. L. Sheinberg and N. K. Logothetis The role of temporal cortical areas in�perceptual�organization PNAS, April 1, 1997; 94(7): 3408 - 3413. [Abstract] [Full Text] [PDF]

				W Bialek, F Rieke, R. de Ruyter van Steveninck, and D Warland Reading a neural code Science, June 28, 1991; 252(5014): 1854 - 1857. [Abstract] [PDF]