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Large-scale dynamics of perceptual decision information across human cortex

Niklas Wilming, Peter R. Murphy, Florent Meyniel, Tobias H. Donner

2020Nature Communications81 citationsDOIOpen Access PDF

Abstract

Perceptual decisions entail the accumulation of sensory evidence for a particular choice towards an action plan. An influential framework holds that sensory cortical areas encode the instantaneous sensory evidence and downstream, action-related regions accumulate this evidence. The large-scale distribution of this computation across the cerebral cortex has remained largely elusive. Here, we develop a regionally-specific magnetoencephalography decoding approach to exhaustively map the dynamics of stimulus- and choice-specific signals across the human cortical surface during a visual decision. Comparison with the evidence accumulation dynamics inferred from behavior disentangles stimulus-dependent and endogenous components of choice-predictive activity across the visual cortical hierarchy. We find such an endogenous component in early visual cortex (including V1), which is expressed in a low (<20 Hz) frequency band and tracks, with delay, the build-up of choice-predictive activity in (pre-) motor regions. Our results are consistent with choice- and frequency-specific cortical feedback signaling during decision formation.

Topics & Concepts

MagnetoencephalographyVisual cortexSensory systemNeurosciencePerceptionStimulus (psychology)Visual perceptionPsychologyComputer scienceCognitive psychologyElectroencephalographyNeural dynamics and brain functionVisual perception and processing mechanismsFunctional Brain Connectivity Studies
Large-scale dynamics of perceptual decision information across human cortex | Litcius