Neurophysiological oscillatory markers of hypoalgesia in conditioned pain modulation.

IF 3.4 Q2 NEUROSCIENCES Pain Reports Pub Date : 2023-10-23 eCollection Date: 2023-12-01 DOI:10.1097/PR9.0000000000001096

Hyerang Jin, Bart Witjes, Mathieu Roy, Sylvain Baillet, Cecile C de Vos

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Abstract

Introduction: Conditioned pain modulation (CPM) is an experimental procedure that consists of an ongoing noxious stimulus attenuating the pain perception caused by another noxious stimulus. A combination of the CPM paradigm with concurrent electrophysiological recordings can establish whether an association exists between experimentally modified pain perception and modulations of neural oscillations.

Objectives: We aimed to characterize how CPM modifies pain perception and underlying neural oscillations. We also interrogated whether these perceptual and/or neurophysiological effects are distinct in patients affected by chronic pain.

Methods: We presented noxious electrical stimuli to the right ankle before, during, and after CPM induced by an ice pack placed on the left forearm. Seventeen patients with chronic pain and 17 control participants rated the electrical pain in each experimental condition. We used magnetoencephalography to examine the anatomy-specific effects of CPM on the neural oscillatory responses to the electrical pain.

Results: Regardless of the participant groups, CPM induced a reduction in subjective pain ratings and neural responses (beta-band [15-35 Hz] oscillations in the sensorimotor cortex) to electrical pain.

Conclusion: Our findings of pain-induced beta-band activity may be associated with top-down modulations of pain, as reported in other perceptual modalities. Therefore, the reduced beta-band responses during CPM may indicate changes in top-down pain modulations.

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条件性疼痛调节中痛觉减退的神经生理学振荡标志物。

引言：条件性疼痛调节（CPM）是一种实验程序，包括一种持续的有害刺激，削弱另一种有害刺激引起的疼痛感知。CPM范式与并发电生理记录的结合可以确定实验改变的疼痛感知和神经振荡的调节之间是否存在关联。目的：我们旨在描述CPM如何改变疼痛感知和潜在的神经振荡。我们还询问了这些感知和/或神经生理学效应在慢性疼痛患者中是否不同。方法：我们在左前臂放置冰袋诱发CPM之前、期间和之后，对右脚踝进行有害的电刺激。17名慢性疼痛患者和17名对照参与者对每种实验条件下的电性疼痛进行了评分。我们使用脑磁图检查CPM对电性疼痛的神经振荡反应的解剖学特异性影响。结果：无论参与者组如何，CPM都会降低主观疼痛评分和对电疼痛的神经反应（感觉运动皮层的β带[15-35 Hz]振荡）。结论：正如在其他感知模式中报道的那样，我们对疼痛诱导的β带活动的发现可能与自上而下的疼痛调节有关。因此，CPM过程中β带反应的减少可能表明自上而下的疼痛调节发生了变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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