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右岛叶静息态功能异质性与疼痛敏感性有关。

Resting-state functional heterogeneity of the right insula contributes to pain sensitivity.

机构信息

Department of Neurology, Faculty of Medicine, University of Szeged, Szeged, Hungary.

Neuroimaging Research Group, Department of Radiology, Albert Szent-Györgyi Clinical Center, University of Szeged, Semmelweis u. 6, Szeged, 6725, Hungary.

出版信息

Sci Rep. 2021 Nov 25;11(1):22945. doi: 10.1038/s41598-021-02474-x.

DOI:10.1038/s41598-021-02474-x
PMID:34824347
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8617295/
Abstract

Previous studies have described the structure and function of the insular cortex in terms of spatially continuous gradients. Here we assess how spatial features of insular resting state functional organization correspond to individual pain sensitivity. From a previous multicenter study, we included 107 healthy participants, who underwent resting state functional MRI scans, T1-weighted scans and quantitative sensory testing on the left forearm. Thermal and mechanical pain thresholds were determined. Connectopic mapping, a technique using non-linear representations of functional organization was employed to describe functional connectivity gradients in both insulae. Partial coefficients of determination were calculated between trend surface model parameters summarizing spatial features of gradients, modal and modality-independent pain sensitivity. The dominant connectopy captured the previously reported posteroanterior shift in connectivity profiles. Spatial features of dominant connectopies in the right insula explained significant amounts of variance in thermal (R = 0.076; p < 0.001 and R = 0.031; p < 0.029) and composite pain sensitivity (R = 0.072; p < 0.002). The left insular gradient was not significantly associated with pain thresholds. Our results highlight the functional relevance of gradient-like insular organization in pain processing. Considering individual variations in insular connectopy might contribute to understanding neural mechanisms behind pain and improve objective brain-based characterization of individual pain sensitivity.

摘要

先前的研究已经从空间连续梯度的角度描述了脑岛的结构和功能。在这里,我们评估了脑岛静息状态功能组织的空间特征与个体疼痛敏感性之间的对应关系。我们从之前的一项多中心研究中纳入了 107 名健康参与者,他们接受了静息状态功能磁共振成像扫描、T1 加权扫描和左侧前臂的定量感觉测试。测定了热和机械痛阈值。我们使用功能组织的非线性表示方法——连接图映射技术,来描述两个脑岛中的功能连接梯度。在总结梯度空间特征、模态和模态独立的疼痛敏感性的趋势面模型参数之间计算了部分决定系数。主导连接图捕获了先前报道的连接轮廓的前后移位。右脑岛主导连接图的空间特征解释了热痛(R=0.076;p<0.001 和 R=0.031;p<0.029)和复合疼痛敏感性(R=0.072;p<0.002)的大量变异性。左侧脑岛梯度与疼痛阈值无显著相关性。我们的研究结果突出了脑岛组织在疼痛处理中的功能相关性。考虑脑岛连接图的个体差异可能有助于理解疼痛背后的神经机制,并改善基于大脑的个体疼痛敏感性的客观特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/0d09bef8c793/41598_2021_2474_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/1690175ffce9/41598_2021_2474_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/1ddb2a5b6271/41598_2021_2474_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/0d09bef8c793/41598_2021_2474_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/1690175ffce9/41598_2021_2474_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/1ddb2a5b6271/41598_2021_2474_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b605/8617295/0d09bef8c793/41598_2021_2474_Fig3_HTML.jpg

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Insular responses to transient painful and non-painful thermal and mechanical spinothalamic stimuli recorded using intracerebral EEG.记录脑内 EEG 显示岛叶对短暂性疼痛和非疼痛热及机械性脊髓丘脑刺激的反应。
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