Create your own path: social cerebellum in sequence-based self-guided navigation.

Meijia Li, Naem Haihambo, Tom Bylemans, Qianying Ma, Elien Heleven, Chris Baeken, Kris Baetens, Natacha Deroost, Frank Van Overwalle
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Abstract

Spatial trajectory planning and execution in a social context play a vital role in our daily lives. To study this process, participants completed a goal-directed task involving either observing a sequence of preferred goals and self-planning a trajectory (Self Sequencing) or observing and reproducing the entire trajectory taken by others (Other Sequencing). The results indicated that in the observation phase, witnessing entire trajectories created by others (Other Sequencing) recruited cerebellar mentalizing areas (Crus 2 and 1) and cortical mentalizing areas in the precuneus, ventral and dorsal medial prefrontal cortex and temporo-parietal junction more than merely observing several goals (Self Sequencing). In the production phase, generating a trajectory by oneself (Self Sequencing) activated Crus 1 more than merely reproducing the observed trajectories from others (Other Sequencing). Additionally, self-guided observation and planning (Self Sequencing) activated the cerebellar lobules IV and VIII more than Other Sequencing. Control conditions involving non-social objects and non-sequential conditions where the trajectory did not have to be (re)produced revealed no differences with the main Self and Other Sequencing conditions, suggesting limited social and sequential specificity. These findings provide insights into the neural mechanisms underlying trajectory observation and production by the self or others during social navigation.

开辟自己的道路:社会小脑在基于序列的自导导航中的作用。
社会环境中的空间轨迹规划和执行在我们的日常生活中起着至关重要的作用。为了研究这一过程,受试者完成了一项目标导向任务,其中包括观察一连串首选目标并自我规划轨迹(自我排序)或观察并复制他人的整个轨迹(其他排序)。结果表明,在观察阶段,与仅仅观察几个目标(自我排序)相比,目睹他人创造的整个轨迹(其他排序)更能调动小脑思维区(Crus 2 和 1)以及楔前叶、腹侧和背侧内侧前额叶皮层和颞顶交界处的大脑皮层思维区。在制作阶段,自己制作轨迹(自我排序)比仅仅复制他人观察到的轨迹(其他排序)更能激活 Crus 1。此外,自我引导的观察和规划(自我排序)比其他排序更能激活小脑第四小叶和第八小叶。涉及非社交对象的对照条件和无需(重新)制作轨迹的非序列条件与主要的 "自我序列 "和 "他序序列 "条件没有差异,这表明社交和序列特异性有限。这些发现为研究社会导航过程中自我或他人观察和制作轨迹的神经机制提供了新的视角。
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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