健康女性和原发性痛经女性疼痛共情网络的特征:fMRI 研究。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 DOI:10.1007/s11682-024-00901-x
Chenxi Wang, Juan He, Xinyue Feng, Xingang Qi, Zilong Hong, Wanghuan Dun, Ming Zhang, Jixin Liu
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引用次数: 0

摘要

痛觉共鸣使我们能够理解和分担他人的疼痛感受。很少有研究在全脑水平的所有网络中调查与痛觉共鸣相关的功能相互作用。此外,患有原发性痛经(PDM)的女性痛觉移情异常,而全脑功能网络、疼痛和痛觉移情之间的关联仍不清楚。通过静息态功能磁共振成像(fMRI)和机器学习分析,我们在两项研究中确定了与疼痛共鸣相关的基于大脑功能网络连接(FNC)的特征。具体来说,研究 1 调查了 41 名健康对照者(HCs),而研究 2 调查了 45 名患有 PDM 的女性。此外,研究 3 还进行了分类分析,以检查健康对照组与 PDM 女性患者之间在 FNC 方面的差异。通过视觉刺激实验评估了痛觉共鸣,并记录了痛经的特质和状态。研究1的结果表明,HCs的痛觉移情依赖于全脑网络的动态交互作用,并不集中于单一或两个脑网络,这表明HCs的痛觉移情是通过网络的动态合作实现的。在研究2中,PDM表现出一种独特的痛觉共情网络。与痛觉共情相关的特征集中在感觉运动网络(SMN)中。在研究3中,与SMN相关的动态FNC能准确区分PDM女性和HC女性,并与特质经痛有显著关联。这项研究可能会加深我们对痛觉移情神经机制的理解,并表明经痛可能会通过大脑网络之间不适应的动态交互作用影响痛觉移情。
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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Characteristics of pain empathic networks in healthy and primary dysmenorrhea women: an fMRI study.

Pain empathy enables us to understand and share how others feel pain. Few studies have investigated pain empathy-related functional interactions at the whole-brain level across all networks. Additionally, women with primary dysmenorrhea (PDM) have abnormal pain empathy, and the association among the whole-brain functional network, pain, and pain empathy remain unclear. Using resting-state functional magnetic resonance imaging (fMRI) and machine learning analysis, we identified the brain functional network connectivity (FNC)-based features that are associated with pain empathy in two studies. Specifically, Study 1 examined 41 healthy controls (HCs), while Study 2 investigated 45 women with PDM. Additionally, in Study 3, a classification analysis was performed to examine the differences in FNC between HCs and women with PDM. Pain empathy was evaluated using a visual stimuli experiment, and trait and state of menstrual pain were recorded. In Study 1, the results showed that pain empathy in HCs relied on dynamic interactions across whole-brain networks and was not concentrated in a single or two brain networks, suggesting the dynamic cooperation of networks for pain empathy in HCs. In Study 2, PDM exhibited a distinctive network for pain empathy. The features associated with pain empathy were concentrated in the sensorimotor network (SMN). In Study 3, the SMN-related dynamic FNC could accurately distinguish women with PDM from HCs and exhibited a significant association with trait menstrual pain. This study may deepen our understanding of the neural mechanisms underpinning pain empathy and suggest that menstrual pain may affect pain empathy through maladaptive dynamic interaction between brain networks.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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