反刍和抑制控制神经基础的相互关系:基于神经影像学的荟萃分析。

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY
Recent Contributions to Physics Pub Date : 2022-03-17 eCollection Date: 2022-03-01 DOI:10.1093/psyrad/kkac002
Xiaoqi Song, Jixin Long, Chanyu Wang, Ruibin Zhang, Tatia M C Lee
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引用次数: 0

摘要

反刍作为抑郁症的一种临床表现和致病因素,其成因和改善方法一直是心理学研究的重点。行为学研究表明,反刍与抑制控制缺陷有关,这为减少反刍提供了思路。然而,它们之间的神经关系还没有得到明确的讨论。在本研究中,我们首先使用多级核密度分析法对已发表的功能磁共振成像研究进行了两项荟萃分析:一项是反刍,包括17项研究,180个病灶;另一项是抑制控制,包括205项研究,3791个病灶。然后进行了连接分析,以探索共同的脑区,并通过 Neurosynth 进一步解码,以确认认知特异性。结果显示,反刍主要与默认模式网络(DMN)有关,而抑制控制则与额顶叶网络(FPN)有关。此外,共同激活区域主要集中在双侧楔前回、右侧额上回、双侧扣带回正中、扣带回旁和左侧额下回三角区(IFG)。解码结果还显示,它们参与了抑制、记忆检索和自我相关过程。我们的研究结果表明,反刍与抑制控制有关,可以通过 DMN 和 FPN 之间的拮抗关系从神经学角度加以解释。总之,抑制控制可能通过抑制与任务无关的注意力和控制与自我有关的处理过程而与反刍有关。这项研究将有助于我们从抑制控制的角度来理解和预测反刍,并通过抑制控制的行为训练或在共同激活区域应用神经调控技术来减少反刍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The inter-relationships of the neural basis of rumination and inhibitory control: neuroimaging-based meta-analyses.

Rumination, as a clinical manifestation and pathogenic factor of depression, has long been the focus of psychological research regarding its causes and ameliorating approaches. Behavioral studies have shown that rumination is related to inhibitory control deficits, which provides ideas for reducing it. However, the neural relationship between them has not been clearly discussed. In this study, we first used multi-level kernel density analysis to conduct two meta-analyses of published functional magnetic resonance imaging studies: one was rumination comprising 17 studies with 180 foci, and the other was inhibitory control comprising 205 studies with 3791 foci. Conjunction analysis was then performed to explore the common brain regions and further decode them through Neurosynth to confirm the cognitive specificity. Results showed that rumination was mainly related to the default mode network (DMN), while inhibitory control was associated with the frontoparietal network (FPN). In addition, the common activation areas were mainly concentrated in the bilateral precuneus, right superior frontal gyrus, bilateral median cingulate, paracingulate gyri, and the left triangular part of inferior frontal gyrus (IFG). Decoding results also revealed they were involved in inhibition, memory retrieval, and self-related processes. Our findings support that rumination is associated with inhibitory control and can be explained neurologically by an antagonistic relationship between the DMN and FPN. In sum, inhibitory control may be related to rumination via inhibiting task-unrelated attention and controlling self-related processing. This research will help us understand and predict rumination from the perspective of inhibitory control and reduce rumination through behavioral training of inhibitory control or the application of neuromodulation techniques to common activation regions.

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