Litcius/Paper detail

Neural encoding of actual and imagined touch within human posterior parietal cortex

Srinivas Chivukula, Carey Zhang, Tyson Aflalo, Matiar Jafari, Kelsie Pejsa, Nader Pouratian, Richard A. Andersen

2021eLife33 citationsDOIOpen Access PDF

Abstract

representations that enable small populations of neurons to encode many variables relevant to movement planning, execution, cognition, and perception. Here, we test whether a PPC neuronal population previously demonstrated to encode visual and motor information is similarly engaged in the somatosensory domain. We recorded neurons within the PPC of a human clinical trial participant during actual touch presentation and during a tactile imagery task. Neurons encoded actual touch at short latency with bilateral receptive fields, organized by body part, and covered all tested regions. The tactile imagery task evoked body part-specific responses that shared a neural substrate with actual touch. Our results are the first neuron-level evidence of touch encoding in human PPC and its cognitive engagement during a tactile imagery task, which may reflect semantic processing, attention, sensory anticipation, or imagined touch.

Topics & Concepts

Somatosensory systemPosterior parietal cortexENCODENeural substrateNeuroscienceSensory systemEncoding (memory)CognitionPerceptionPsychologyTask (project management)PopulationCognitive neuroscienceMultisensory integrationBiologyMedicineEconomicsBiochemistryEnvironmental healthManagementGeneEEG and Brain-Computer InterfacesTactile and Sensory InteractionsNeural and Behavioral Psychology Studies