AI Article Synopsis

  • This study explored how manipulating dopamine D2 receptors in the brain affects the anticipation and perception of pain in humans, particularly focusing on the striatum's role in pain processing.* -
  • Participants underwent pain trials under three different conditions (control, D2 agonist, and D2 antagonist), with results showing that the antagonist impaired their ability to differentiate between pain levels and altered brain activity related to pain processing.* -
  • Findings suggest that D2 receptor activity influences how the brain modulates pain, particularly during the anticipation phase, but overall pain sensitivity and unpleasantness did not change with receptor manipulation.*

Article Abstract

Striatal dopamine dysfunction is associated with the altered top-down modulation of pain processing. The dopamine D2-like receptor family is a potential substrate for such effects due to its primary expression in the striatum, but evidence for this is currently lacking. Here, we investigated the effect of pharmacologically manipulating striatal dopamine D2 receptor activity on the anticipation and perception of acute pain stimuli in humans. Participants received visual cues that induced either certain or uncertain anticipation of two pain intensity levels delivered via a CO laser. Rating of the pain intensity and unpleasantness was recorded. Brain activity was recorded with EEG and analysed via source localisation to investigate neural activity during the anticipation and receipt of pain. Participants completed the experiment under three conditions, control (Sodium Chloride), D2 receptor agonist (Cabergoline), and D2 receptor antagonist (Amisulpride), in a repeated-measures, triple-crossover, double-blind study. The antagonist reduced an individuals' ability to distinguish between low and high pain following uncertain anticipation. The EEG source localisation showed that the agonist and antagonist reduced neural activations in specific brain regions associated with the sensory integration of salient stimuli during the anticipation and receipt of pain. During anticipation, the agonist reduced activity in the right mid-temporal region and the right angular gyrus, whilst the antagonist reduced activity within the right postcentral, right mid-temporal, and right inferior parietal regions. In comparison to control, the antagonist reduced activity within the insula during the receipt of pain, a key structure involved in the integration of the sensory and affective aspects of pain. Pain sensitivity and unpleasantness were not changed by D2R modulation. Our results support the notion that D2 receptor neurotransmission has a role in the top-down modulation of pain.

Download full-text PDF

Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8946836PMC
http://dx.doi.org/10.3390/brainsci12030351DOI Listing

Publication Analysis

Top Keywords

antagonist reduced
16
receipt pain
12
reduced activity
12
pain
11
pain processing
8
agonist antagonist
8
striatal dopamine
8
top-down modulation
8
modulation pain
8
activity anticipation
8

Similar Publications

Want AI Summaries of new PubMed Abstracts delivered to your In-box?

Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!