Abstract
Only a small fraction of all the information reaching our senses can be the object of conscious report or voluntary action. Although some models propose that different attentional states (top-down amplification and vigilance) are necessary for conscious perception, few studies have explored how the brain activations associated with different attentional systems (such as top-down orienting and phasic alerting) lead to conscious perception of subsequent visual stimulation. The aim of the present study was to investigate the neural mechanisms associated with endogenous spatial attention and phasic alertness, and their interaction with the conscious perception of near-threshold stimuli. The only region demonstrating a neural interaction between endogenous attention and conscious perception was the thalamus, while a larger network of cortical and subcortical brain activations, typically associated with phasic alerting, was highly correlated with participants’ conscious reports. Activation of the anterior cingulate cortex, supplementary motor area, frontal eye fields, thalamus, and caudate nucleus was related to perceptual consciousness. These data suggest that not all attentional systems are equally effective in enhancing conscious perception, highlighting the importance of thalamo-cortical circuits on the interactions between alerting and consciousness.
Highlights
IntroductionImproves consciousness deficits in neglect patients, while tonic alertness (sustained attention) has a positive impact in patients’ spatial biases in rehabilitation programs[23,24]
Improves consciousness deficits in neglect patients, while tonic alertness has a positive impact in patients’ spatial biases in rehabilitation programs[23,24]
We orthogonally manipulated both endogenous spatial attention and phasic alertness before the to-be-detected target was presented[26], and measured their impact on the modulation of conscious perception of a near-threshold Gabor stimulus. If both top-down amplification and phasic alertness were important pre-requisites of conscious perception, brain activations associated with both attentional mechanisms should be related to subsequent conscious reports
Summary
Improves consciousness deficits in neglect patients, while tonic alertness (sustained attention) has a positive impact in patients’ spatial biases in rehabilitation programs[23,24]. We manipulated top-down amplification produced by endogenous spatial attention and phasic alertness, and explored conscious reports of near-threshold stimuli We orthogonally manipulated both endogenous spatial attention and phasic alertness before the to-be-detected target was presented[26], and measured their impact on the modulation of conscious perception of a near-threshold Gabor stimulus (titrated to be consciously perceived on ~50% of the trials). If both top-down amplification (endogenous spatial attention) and phasic alertness were important pre-requisites of conscious perception, brain activations associated with both attentional mechanisms should be related to subsequent conscious reports. According to recent proposals stating the need to disentangle the neural correlates of consciousness from its pre-requisites and consequences[2,3], and given that regional and functional connectivity analyses of the present work are restricted to the cue-period (before the target is presented), our research will help to shed further light on the neural pre-requisites of consciousness
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