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Hierarchical predictive coding in distributed pain circuits

Zhe Chen

2023Frontiers in Neural Circuits21 citationsDOIOpen Access PDF

Abstract

Predictive coding is a computational theory on describing how the brain perceives and acts, which has been widely adopted in sensory processing and motor control. Nociceptive and pain processing involves a large and distributed network of circuits. However, it is still unknown whether this distributed network is completely decentralized or requires networkwide coordination. Multiple lines of evidence from human and animal studies have suggested that the cingulate cortex and insula cortex (cingulate-insula network) are two major hubs in mediating information from sensory afferents and spinothalamic inputs, whereas subregions of cingulate and insula cortices have distinct projections and functional roles. In this mini-review, we propose an updated hierarchical predictive coding framework for pain perception and discuss its related computational, algorithmic, and implementation issues. We suggest active inference as a generalized predictive coding algorithm, and hierarchically organized traveling waves of independent neural oscillations as a plausible brain mechanism to integrate bottom-up and top-down information across distributed pain circuits.

Topics & Concepts

NeuroscienceSensory systemBiological neural networkCingulate cortexPredictive codingInsulaComputer scienceAnterior cingulate cortexCoding (social sciences)ConnectomeInformation processingPsychologyFunctional connectivityCognitionMathematicsCentral nervous systemStatisticsPain Mechanisms and TreatmentsNeural dynamics and brain functionFunctional Brain Connectivity Studies