Reduced GM-WM concentration inside the Default Mode Network in individuals with high emotional intelligence and low anxiety: a data fusion mCCA+jICA approach.

Alessandro Grecucci, Bianca Monachesi, Irene Messina
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Abstract

The concept of emotional intelligence (EI) refers to the ability to recognize and regulate emotions to appropriately guide cognition and behaviour. Unfortunately, studies on the neural bases of EI are scant, and no study so far has exhaustively investigated grey matter (GM) and white matter (WM) contributions to it. To fill this gap, we analysed trait measure of EI and structural MRI data from 128 healthy participants to shed new light on where and how EI is encoded in the brain. In addition, we explored the relationship between the neural substrates of trait EI and trait anxiety. A data fusion unsupervised machine learning approach (mCCA + jICA) was used to decompose the brain into covarying GM-WM networks and to assess their association with trait-EI. Results showed that high levels trait-EI are associated with decrease in GM-WM concentration in a network spanning from frontal to parietal and temporal regions, among which insula, cingulate, parahippocampal gyrus, cuneus and precuneus. Interestingly, we also found that the higher the GM-WM concentration in the same network, the higher the trait anxiety. These findings encouragingly highlight the neural substrates of trait EI and their relationship with anxiety. The network is discussed considering its overlaps with the Default Mode Network.

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高情商低焦虑个体默认模式网络内 GM-WM 浓度降低:数据融合 mCCA+jICA 方法。
情商(EI)的概念是指识别和调节情绪以适当指导认知和行为的能力。遗憾的是,有关情商神经基础的研究还很少,迄今为止还没有一项研究详尽调查了灰质(GM)和白质(WM)对情商的贡献。为了填补这一空白,我们分析了来自 128 名健康参与者的 EI 特质测量值和结构性核磁共振成像数据,以揭示 EI 在大脑中编码的位置和方式。此外,我们还探讨了特质情绪指数的神经基质与特质焦虑之间的关系。我们采用了一种数据融合无监督机器学习方法(mCCA + jICA),将大脑分解成共变的 GM-WM 网络,并评估它们与特质 EI 之间的关联。结果表明,特质-EI 水平高与额叶、顶叶和颞叶网络中 GM-WM 浓度的降低有关,其中包括岛叶、扣带回、海马旁回、楔形回和楔前回。有趣的是,我们还发现,同一网络中 GM-WM 的浓度越高,特质焦虑就越高。这些发现令人鼓舞地强调了特质情绪智力的神经基质及其与焦虑的关系。考虑到该网络与默认模式网络的重叠,我们对其进行了讨论。
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