Conditioned pain modulation is associated with heightened connectivity between the periaqueductal grey and cortical regions

IF 3.4 Q2 NEUROSCIENCES
Richard Harrison, W. Gandhi, C. V. van Reekum, T. Salomons
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引用次数: 1

Abstract

Resting-state functional connectivity between the periacqueductal gray and cortical regions involved in sensory, motor, and cognitive processing is associated with conditioned pain modulation. Abstract Introduction: Conditioned pain modulation (CPM) is a psychophysical assessment used to estimate the efficiency of an individual's endogenous modulatory mechanisms. Conditioned pain modulation has been used as a predictive assessment for the development of chronic pain and responses to pain interventions. Although much is known about the spinal cord mechanisms associated with descending pain modulation, less is known about the contribution of supraspinal and especially cortical regions. Objectives: We aimed to explore how whole-brain connectivity of a core modulatory region, the periaqueductal grey (PAG), is associated with conditioned pain modulation, and endogenous pain modulation more broadly. Methods: We measured CPM and resting-state connectivity of 35 healthy volunteers, absent of chronic pain diagnoses. As a region of interest, we targeted the PAG, which is directly involved in endogenous modulation of input to the spinal cord and is a key node within the descending pain modulation network. Results: We found that CPM was associated with heightened connectivity between the PAG and key regions associated with pain processing and inhibition, such as the primary and secondary somatosensory cortices, as well as the motor, premotor, and dorsolateral prefrontal cortices. These findings are consistent with connectivity findings in other resting-state and event-related fMRI studies. Conclusion: These findings indicate that individuals who are efficient modulators have greater functional connectivity between the PAG and regions involved in processing pain. The heightened connectivity of these regions may contribute to the beneficial outcomes in clinical pain management, as quantified by CPM. These results may function as brain-based biomarkers for vulnerability or resilience to pain.
条条性疼痛调节与导水管周围灰质区域和皮层区域之间的连接性增强有关
静息状态下,输导周围灰质和皮层区域之间的功能连接涉及感觉、运动和认知加工,与条理性疼痛调节有关。条件疼痛调节(CPM)是一种用于评估个体内源性调节机制效率的心理物理评估。条件性疼痛调节已被用作慢性疼痛发展和疼痛干预反应的预测评估。虽然我们对下行疼痛调节的脊髓机制了解甚多,但对棘上区,特别是皮质区的作用了解甚少。目的:我们旨在探索核心调节区域——导水管周围灰质(PAG)的全脑连通性如何与条理性疼痛调节以及更广泛的内源性疼痛调节相关联。方法:我们测量了35名没有慢性疼痛诊断的健康志愿者的CPM和静息状态连通性。作为一个感兴趣的区域,我们瞄准了PAG,它直接参与脊髓输入的内源性调节,是下行疼痛调节网络的关键节点。结果:我们发现CPM与PAG与疼痛处理和抑制相关的关键区域(如初级和次级体感皮层,以及运动、前运动和背外侧前额叶皮层)之间的连接性增强有关。这些发现与其他静息状态和事件相关fMRI研究的连通性发现一致。结论:这些发现表明,有效调节者在PAG和处理疼痛的区域之间具有更大的功能连接。这些区域的高度连通性可能有助于临床疼痛管理的有益结果,如CPM量化。这些结果可能作为大脑对疼痛的脆弱性或恢复力的生物标志物。
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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来源期刊
Pain Reports
Pain Reports Medicine-Anesthesiology and Pain Medicine
CiteScore
7.50
自引率
2.10%
发文量
93
审稿时长
8 weeks
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