Crus control: effective cerebello-cerebral connectivity during social action prediction using dynamic causal modelling.

Social cognitive and affective neuroscience Pub Date : 2025-03-04 DOI:10.1093/scan/nsaf019

Naem Haihambo, Kris Baetens, Natacha Deroost, Chris Baeken, Frank Van Overwalle

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引用次数: 0

Abstract

This dynamic causal modeling (DCM) analysis, comprising 99 participants from 4 studies, investigated effective neuronal connectivity during social action sequence prediction. The analysis focused on mentalizing areas within the cerebellum, specifically the bilateral Crus 1, Crus 2, and lobule IX, as well as cerebral mentalizing areas within the precuneus, temporo-parietal junction (TPJ), and dorsal medial prefrontal cortex (dmPFC). Consistent with previous research, we found robust bidirectional closed loop connections between the posterior cerebellar Crus and cerebral mentalizing areas. We also found previously unexplored unidirectional connections originating from cerebellar lobule IX to the dmPFC and left TPJ and from the right TPJ to lobule IX. Furthermore, we uncovered many bidirectional closed loops within the cerebellum between the left and right Crus 1, and between Crus 1 and Crus 2, and for the first time, between the bilateral Crus 2 and lobule IX. Our findings illuminate the distinct role of cerebellar Crus and lobule IX, and cerebral mentalizing areas in predicting social action sequences.

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小腿控制：使用动态因果模型进行社会行为预测时有效的小脑-大脑连接。

该动态因果模型（DCM）分析包括来自4项研究的99名参与者，研究了社会行动序列预测过程中有效的神经元连接。分析的重点是小脑内的思维化区域，特别是双侧1号脚、2号脚和9号小叶，以及楔前叶、颞顶叶交界处（TPJ）和背内侧前额叶皮层（dmPFC）内的大脑思维化区域。与之前的研究一致，我们发现小脑后小腿和大脑思维区之间存在强大的双向闭环连接。我们还发现了从小脑九小叶到dmPFC和左TPJ以及从右TPJ到小叶九的单向连接。此外，我们在小脑内发现了左右小腿1之间、小腿1和小腿2之间以及双侧小腿2和小叶9之间的许多双向闭合回路。我们的研究结果阐明了小脑小腿、小叶九和大脑思维区在预测社会行为序列中的独特作用。

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

Social cognitive and affective neuroscience

CiteScore

8.00

自引率

0.00%

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