Intense and sustained pain reduces cortical responses to auditory stimuli: implications for the interpretation of the effects of Heterotopic Noxious Conditioning Stimulation in humans

D M Torta, F A Jure, O K Andersen, Ja Biurrun Manresa

Research output: Contribution to journalJournal articleResearchpeer-review

6 Citations (Scopus)
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Abstract

Phasic pain stimuli are inhibited when they are applied concomitantly with a conditioning tonic stimulus at another body location (heterotopic noxious conditioning stimulation, HNCS). While the effects of HNCS are thought to rely on a spino-bulbo-spinal mechanism in animals (termed diffuse noxious inhibitory controls, DNIC), the underlying neurophysiology in humans may involve other pathways. In this study, we investigated the role of concomitant supraspinal mechanisms during HNCS by presenting auditory stimuli during a conditioning tonic painful stimulus (the cold pressor test, CPT). Considering that auditory stimuli are not conveyed through the spinal cord, any changes in brain responses to auditory stimuli during HNCS can be ascribed entirely to supraspinal mechanisms. Electroencephalography (EEG) was recorded during HNCS, and auditory stimuli were administered in three blocks, before, during and after HNCS. Nociceptive withdrawal reflexes (NWRs) were recorded at the same time points to investigate spinal processing. Our results showed that AEPs were significantly reduced during HNCS. Moreover, the amplitude of the NWR was significantly diminished during HNCS in most participants. Given that spinal and supraspinal mechanisms operate concomitantly during HNCS, the possibility of isolating their individual contributions in humans is questionable. We conclude that the net effects of HCNS are not independent from attentional/cognitive influences.

Original languageEnglish
JournalEuropean Journal of Neuroscience
Volume50
Issue number12
Pages (from-to)3934-3943
Number of pages10
ISSN0953-816X
DOIs
Publication statusPublished - Dec 2019

Bibliographical note

© 2019 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.

Keywords

  • cognition
  • conditioned pain modulation
  • event-related potentials
  • heterotopic noxious conditioning stimulation
  • pain

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