海马体在趋近-回避冲突中的作用分析

Eleanor Loh, Z. Kurth-Nelson, D. Berron, P. Dayan, E. Duzel, R. Dolan, M. Guitart-Masip
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引用次数: 34

摘要

海马体在接近-回避冲突中起着核心作用,这是焦虑产生的核心。然而,其确切的功能贡献尚未确定。我们设计了一个新的赌博任务,在控制空间处理的同时产生避近冲突。我们使用量化选择选项主观价值的模型拟合受试者的行为,并使用功能磁共振成像(fMRI)记录神经信号。在前海马体中观察到明显的功能信号,当受试者拒绝赌博时,下海马体选择性地被招募,其程度与焦虑的个体差异共变。相比之下,上前海马体独特地展示了在接近-回避冲突背景下增强的价值信号。这些结果暗示前海马体在行为回避和选择监控中,以一种与理解其在焦虑中的作用相关的方式。我们的发现强调了海马体亚区之间的相互作用是未来研究的重要焦点。
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Parsing the Role of the Hippocampus in Approach–Avoidance Conflict
Abstract The hippocampus plays a central role in the approach‐avoidance conflict that is central to the genesis of anxiety. However, its exact functional contribution has yet to be identified. We designed a novel gambling task that generated approach‐avoidance conflict while controlling for spatial processing. We fit subjects’ behavior using a model that quantified the subjective values of choice options, and recorded neural signals using functional magnetic resonance imaging (fMRI). Distinct functional signals were observed in anterior hippocampus, with inferior hippocampus selectively recruited when subjects rejected a gamble, to a degree that covaried with individual differences in anxiety. The superior anterior hippocampus, in contrast, uniquely demonstrated value signals that were potentiated in the context of approach‐avoidance conflict. These results implicate the anterior hippocampus in behavioral avoidance and choice monitoring, in a manner relevant to understanding its role in anxiety. Our findings highlight interactions between subregions of the hippocampus as an important focus for future study.
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