The Sparseness of Neuronal Responses in Ferret Primary Visual Cortex

The Sparseness of Neuronal Responses in Ferret Primary Visual Cortex

Various arguments suggest that neuronal coding of natural sensory stimuli should be sparse (i.e., individual neurons should respond rarely but should respond reliably). We examined sparseness of visual cortical neurons in anesthetized ferret to flashed natural scenes. Response behavior differed wide...

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Bibliographic Details
Published in:The Journal of neuroscience Vol. 29; no. 8; pp. 2355 - 2370
Main Authors: Tolhurst, David J, Smyth, Darragh, Thompson, Ian D
Format: Journal Article
Language:English
Published: United States Soc Neuroscience 25-02-2009
Society for Neuroscience
Subjects:
Action Potentials - physiology
Animals
Ferrets
Models, Neurological
Neurons - classification
Neurons - physiology
Photic Stimulation - methods
Reaction Time - physiology
Time Factors
Visual Cortex - cytology
Visual Perception - physiology
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Summary:Various arguments suggest that neuronal coding of natural sensory stimuli should be sparse (i.e., individual neurons should respond rarely but should respond reliably). We examined sparseness of visual cortical neurons in anesthetized ferret to flashed natural scenes. Response behavior differed widely between neurons. The median firing rate of 4.1 impulses per second was slightly higher than predicted from consideration of metabolic load. Thirteen percent of neurons (12 of 89) responded to <5% of the images, but one-half responded to >25% of images. Multivariate analysis of the range of sparseness values showed that 67% of the variance was accounted for by differing response patterns to moving gratings. Repeat presentation of images showed that response variance for natural images exaggerated sparseness measures; variance was scaled with mean response, but with a lower Fano factor than for the responses to moving gratings. This response variability and the "soft" sparse responses (Rehn and Sommer, 2007) raise the question of what constitutes a reliable neuronal response and imply parallel signaling by multiple neurons. We investigated whether the temporal structure of responses might be reliable enough to give additional information about natural scenes. Poststimulus time histogram shape was similar for "strong" and "weak" stimuli, with no systematic change in first-spike latency with stimulus strength. The variance of first-spike latency for repeat presentations of the same image was greater than the latency variance between images. In general, responses to flashed natural scenes do not seem compatible with a sparse encoding in which neurons fire rarely but reliably.
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ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.3869-08.2009