Express detection and discrimination of visual objects by primate superior colliculus neurons

Abstract

AbstractPrimate superior colliculus (SC) neurons exhibit rich visual feature tuning properties and are implicated in a subcortical network hypothesized to mediate fast threat and/or conspecific detection. However, the mechanisms through which generalized object detection may be mediated by SC neurons remain unclear. Here we explored whether, and how quickly, SC neurons detect and discriminate real-life object stimuli. We presented experimentally-controlled gray-scale images of seven different object categories within the response fields (RF’s) of SC neurons, and we also presented a variety of luminance- and spectral-matched image controls. We found that all of our functionally-identified SC neuron types preferentially detected real-life objects even in their very first stimulus-evoked visual bursts (starting within approximately 50 ms from image onset). Intriguingly, even visually-responsive motor-related neurons exhibited such robust early object detection, and they also preferentially discriminated between object categories in their initial visual bursts. We further identified spatial frequency information in visual images as a critical source for early object detection and discrimination by SC neurons. Our results demonstrate rapid and robust SC processing of visual objects, and they underline how the visual processing capabilities of the primate SC support perception and action.