# EEG Correlates of the Influence of Somatosensory Input, Expectations and Trait‐Like Bias on Pain Perception

**Authors:** Ariane Delgado‐Sanchez, Christiana Charalambous, Hannah Safi, Anthony Jones, Christopher Brown, Nelson J. Trujillo‐Barreto

PMC · DOI: 10.1002/ejp.70154 · 2025-11-07

## TL;DR

The study shows how brain activity linked to pain perception is influenced by sensory input and expectations, supporting their use in understanding individual pain experiences.

## Contribution

The study demonstrates concurrent validity of sensory and expectation weights with EEG source activity during pain processing.

## Key findings

- Weight on somatosensory input correlates with brain activity in attention and sensory regions during late anticipation.
- Expectation weight correlates with activity in attention and semantic processing regions.
- No significant correlations were found between weights and psychological variables like mindfulness or catastrophizing.

## Abstract

The weighting of somatosensory input and pain expectation during pain perception is promising for pain phenotyping, with good test–retest reliability. Yet, their concurrent validity with neural and psychological variables requires further investigation.

In this cross‐sectional study, we investigated the concurrent validity of these weights with EEG source correlates of the somatosensory and expectation components during pain processing.

Participants completed a cued pain paradigm, with EEG recorded during pain expectation and perception. We used Bayesian inference to estimate the participant‐specific weighting of somatosensory input, expectations and trait‐like bias, and identified sources of brain activity at different stages of the cued pain task (early anticipation, late anticipation and post‐stimulation). We correlated the estimated weights with EEG source activity across individuals.

As hypothesised, the weight placed on somatosensory input correlated with source activity in areas related to attention (middle frontal gyrus) and sensory processing (postcentral gyrus) during late anticipation. The expectation weight positively correlated with activity in areas related to attention (middle frontal gyrus) and semantic processing (medial temporal gyrus). We found no significant correlations between any of the weights and analgesic or hyperalgesic psychological variables (mindfulness, pain catastrophising and attachment).

Our findings support the concurrent validity of sensory and expectation weights with related EEG source activity in pain perception, reinforcing their utility in pain phenotyping and paving the way for more personalised pain management.

Our findings support the concurrent validity of sensory and expectation weights extracted through a Bayesian model. This finding supports the use of these weights for pain phenotyping.

## Full-text entities

- **Diseases:** hyperalgesic (MESH:D006930), Pain (MESH:D010146)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12594617/full.md

---
Source: https://tomesphere.com/paper/PMC12594617