• Antoine Rohel, Jason Bouffard, Philippe Patricio, Nicolas Mavromatis, Maxime Billot, Jean-Sébastien Roy, Laurent Bouyer, Catherine Mercier, and Hugo Masse-Alarie.
• Center for Interdisciplinary Research in Rehabilitation and Social Integration, Quebec City, Quebec, Canada.
• Eur J Pain. 2021 Jul 1; 25 (6): 1209-1226.

Background And ObjectivePain influences motor control. Previous reviews observed that pain reduces the excitability of corticospinal projections to muscles tested with transcranial magnetic stimulation. However, the independent effect of the type of pain models (tonic, phasic), pain location and tissues targeted (e.g. muscle, skin) remains unexplored. The objective of this review was to determine the influence of experimental pain and of different methodological factors on the corticospinal excitability.Databases And Data TreatmentThree electronic databases were searched: Embase, Pubmed and Web of Science. Meta-analyses were conducted in three consecutive steps to reduce methodological variability: (a) all studies; (b) same pain location; (c) same tissues, pain location and muscle state. Strength of evidence was assessed for each analysis performed.ResultsForty studies were included in the review and 26 in the meta-analysis as it focused only on studies using tonic pain. Overall, there was conflicting/moderate evidence of a diminution of corticospinal excitability during and after tonic pain. When considering only pain location, tonic hand and face pain induced a reduction in corticospinal excitability (limited evidence). Both muscle and cutaneous hand pain reduced corticospinal excitability (limited/conflicting evidence). Similar results were observed for phasic pain (limited evidence).ConclusionsOur results confirm the inhibitory effect of pain on corticospinal excitability for both tonic and phasic pain. This reduction was specific to hand and face pain. Also, both cutaneous and muscle hand pain reduced excitability. The strength of evidence remains limited/conflicting. More high-quality studies are needed to confirm our conclusions.SignificanceThis study adds evidence on the effect of specific factors on the modulation of corticospinal excitability during/after experimental pain. The reduction in corticospinal excitability was driven by hand and face pain. We confirmed previous results that muscle pain reduces corticospinal excitability and provided evidence of a similar effect for cutaneous pain. Both models may inform on the influence of different types of pain on motor control. Future studies are needed to determine the origin of the effect of pain.© 2021 European Pain Federation - EFIC®.

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