Fmri study of changes in large-scale brain networks during affective touch

Vladimir Khorev, Galina Portnova, Anastasia Kushnir, Larisa Mayorova
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Abstract

The importance of touch in human social development and interpersonal interactions is widely recognized, yet the underlying neurological processes remain relatively unexplored. To better understand these mechanisms, we analyzed functional magnetic resonance imaging (fMRI) data to investigate how affective touch influences brain activity. Our study employed independent component analysis (ICA) and cluster analysis to identify brain components that exhibit significant changes following tactile stimulation. These components were then mapped to large-scale brain networks, focusing on those with the most pronounced spatial intensity differences. Our findings highlight the crucial role of distinct brain networks in processing tactile sensations. Notably, we observed significant changes in the default mode network (DMN) activity, particularly in the control group, after the touch experiment. Additionally, specific alterations were detected in the amygdala, cuneus, and orbitofrontal cortex. This study sheds light on the neurological foundations of tactile experiences and their potential impact on behavior and emotional states. Understanding these processes could inform the development of therapeutic strategies that leverage touch to alleviate stress and enhance mental health.

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情感触觉过程中大规模大脑网络变化的 Fmri 研究
触觉在人类社会发展和人际交往中的重要性已得到广泛认可,但其背后的神经过程却仍未得到深入探讨。为了更好地了解这些机制,我们分析了功能磁共振成像(fMRI)数据,研究情感性触摸如何影响大脑活动。我们的研究采用独立成分分析(ICA)和聚类分析来识别在触觉刺激后出现显著变化的大脑成分。然后将这些成分映射到大规模大脑网络中,重点关注那些空间强度差异最明显的成分。我们的研究结果凸显了不同大脑网络在处理触觉时的关键作用。值得注意的是,在触觉实验后,我们观察到默认模式网络(DMN)活动的显著变化,尤其是在对照组中。此外,我们还在杏仁核、楔皮层和眶额皮层检测到了特定的改变。这项研究揭示了触觉体验的神经基础及其对行为和情绪状态的潜在影响。了解这些过程可以为制定治疗策略提供信息,从而利用触觉缓解压力并增进心理健康。
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