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Cortical mechanisms of visual brightness

Reece Mazade, Jianzhong Jin, Hamed Rahimi-Nasrabadi, Sohrab Najafian, Carmen Pons, José‐Manuel Alonso

2022Cell Reports17 citationsDOIOpen Access PDF

Abstract

The primary visual cortex signals the onset of light and dark stimuli with ON and OFF cortical pathways. Here, we demonstrate that both pathways generate similar response increments to large homogeneous surfaces and their response average increases with surface brightness. We show that, in cat visual cortex, response dominance from ON or OFF pathways is bimodally distributed when stimuli are smaller than one receptive field center but unimodally distributed when they are larger. Moreover, whereas small bright stimuli drive opposite responses from ON and OFF pathways (increased versus suppressed activity), large bright surfaces drive similar response increments. We show that this size-brightness relation emerges because strong illumination increases the size of light surfaces in nature and both ON and OFF cortical neurons receive input from ON thalamic pathways. We conclude that visual scenes are perceived as brighter when the average response increments from ON and OFF cortical pathways become stronger.

Topics & Concepts

Visual cortexReceptive fieldVisual systemNeuroscienceBrightnessBinocular neuronsOcular dominanceHomogeneousOcular dominance columnRetinotopyVisual perceptionCortex (anatomy)Cortical neuronsBiologyPhysicsPerceptionOpticsThermodynamicsNeural dynamics and brain functionVisual perception and processing mechanismsNeurobiology and Insect Physiology Research
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