Research note: a resting-state, cerebello-amygdaloid intrinsically connected network.

Q3 Medicine

Cerebellum and Ataxias Pub Date : 2018-02-14 eCollection Date: 2018-01-01 DOI:10.1186/s40673-018-0083-0

Christophe Habas

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引用次数: 23

Abstract

Background: Previous ROI-based functional connectivity studies found functional coherence between cerebellum and cerebral amygdale, at rest. Moreover, some neurospychiatric symptoms were accompanied by abnormal activations of these two brain areas. Therefore, the aim of the study was to identify a putative, resting-state intrinsically connected cerebello-amygdaloid network.

Methods: ICA-based analysis was performed on brain resting-state functional images of 15 volunteers.

Results: The first ICA spatial component corresponded to a circuit including: dentate nuclei, lobules VI and VIII, the basolateral amygdala, the substantia nigra, the posterior insula, claustrum and the parietal opercule.

Conclusion: A new intrinsically connected network linking cerebellum and amygdala is described, which could be in charge of sensorimotor, emotional and motivational integration of somesthesic stimuli before recruiting more specialized circuits such as ventral striatum or attentional and salience networks.

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研究说明:静息状态下，小脑-杏仁核内在连接的网络。

背景:先前基于roi的功能连接研究发现，小脑和大脑杏仁核在静止状态下具有功能一致性。此外，一些神经精神病症状还伴有这两个脑区的异常激活。因此，本研究的目的是确定一个假定的静息状态内在连接的小脑-杏仁核网络。方法:对15名志愿者的静息状态脑功能图像进行ica分析。结果:第一个ICA空间成分对应的回路包括:齿状核、第六小叶和第八小叶、杏仁核基底外侧、黑质、后岛、屏状体和顶盖。结论:小脑和杏仁核之间存在一个新的内在连接网络，该网络在招募腹侧纹状体或注意和显著性网络等更专门的回路之前，可能负责感觉运动、情绪和动机对躯体刺激的整合。

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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来源期刊

Cerebellum and Ataxias Medicine-Neurology (clinical)

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13 weeks