One step too far: social cerebellum in norm-violating navigation.

Meijia Li, Min Pu, Qianying Ma, Elien Heleven, Chris Baeken, Kris Baetens, Natacha Deroost, Frank Van Overwalle
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Abstract

Social norms are pivotal in guiding social interactions. The current study investigated the potential contribution of the posterior cerebellum, a critical region involved in perceiving and comprehending the sequential dynamics of social actions, in detecting actions that either conform to or deviate from social norms. Participants engaged in a goal-directed task in which they observed others navigating towards a goal. The trajectories demonstrated either norm-violating (trespassing forbidden zones) or norm-following behaviors (avoiding forbidden zones). Results revealed that observing social norm-violating behaviors engaged the bilateral posterior cerebellar Crus 2 and the right temporoparietal junction (TPJ) from the mentalizing network, and the parahippocampal gyrus (PHG) to a greater extent than observing norm-following behaviors. These mentalizing regions were also activated when comparing social sequences against non-social and non-sequential control conditions. Reproducing norm-violating social trajectories observed earlier, activated the left cerebellar Crus 2 and the right PHG compared to reproducing norm-following trajectories. These findings illuminate the neural mechanisms in the cerebellum associated with detecting norm transgressions during social navigation, emphasizing the role of the posterior cerebellum in detecting and signaling deviations from anticipated sequences.

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一步之遥:违反常规导航中的社交小脑
社会规范是指导社会互动的关键。小脑后部是感知和理解社会行动顺序动态的关键区域,本研究调查了小脑后部在检测符合或偏离社会规范的行动方面的潜在贡献。受试者参与了一项目标导向任务,观察他人向目标前进的轨迹。这些轨迹显示了违反规范的行为(闯入禁区)或遵守规范的行为(避开禁区)。结果发现,观察违反社会规范的行为比观察遵循规范的行为更能激活心理网络中的双侧小脑后Crus 2和右侧颞顶叶交界处(TPJ)以及海马旁回(PHG)。在将社会序列与非社会序列和非序列对照条件进行比较时,这些心智化区域也会被激活。与再现遵循规范的轨迹相比,再现之前观察到的违反规范的社交轨迹会激活左侧小脑Crus 2和右侧PHG。这些发现阐明了小脑在社会导航过程中与检测违反规范相关的神经机制,强调了后小脑在检测和发出偏离预期序列信号方面的作用。
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