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海马体对特定和一般未来事件的情景模拟的贡献。

Hippocampal contributions to the episodic simulation of specific and general future events.

机构信息

Department of Psychology, The University of Auckland, New Zealand.

出版信息

Hippocampus. 2011 Oct;21(10):1045-52. doi: 10.1002/hipo.20870. Epub 2010 Sep 29.

DOI:10.1002/hipo.20870
PMID:20882550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3815461/
Abstract

Recent studies have demonstrated that remembering past experiences and imagining future scenarios recruits a core network including the hippocampus. Even so, constructing future events engages the hippocampus more than remembering past events. This fMRI study examined whether increased hippocampal activity for future events includes both specific and general events. Participants constructed specific and general past and future events during fMRI scanning. We replicated previous findings of increased activity in the right anterior hippocampus when constructing future relative to past events, and when constructing specific relative to general events. Importantly, both effects were driven by a significant interaction between temporal direction and specificity, with specific future events resulting in more activity than other conditions, including general future events. No regions exhibited greater activity during the construction of past relative to future events, or general relative to specific events. These results suggest that the process of constructing a detailed representation of a novel and specific future event differentially engages the right anterior hippocampus compared with other forms of event simulation and recall. Future work is needed to disambiguate the role of encoding, novelty and detail recombination in engaging the right anterior hippocampus during simulation.

摘要

最近的研究表明,回忆过去的经历和想象未来的情景会激活包括海马体在内的核心网络。即便如此,构建未来事件比回忆过去事件更能激活海马体。这项 fMRI 研究探讨了未来事件中海马体活动的增加是否包括具体事件和一般事件。参与者在 fMRI 扫描期间构建具体和一般的过去和未来事件。我们复制了之前的研究发现,当构建未来事件相对于过去事件时,以及当构建具体事件相对于一般事件时,右侧前海马体的活动增加。重要的是,这两个效应都受到时间方向和特异性之间的显著交互作用的驱动,具体的未来事件导致的活动比其他条件(包括一般的未来事件)都要多。在构建过去事件相对于未来事件时,或在构建一般事件相对于具体事件时,没有任何区域表现出更高的活动。这些结果表明,与其他形式的事件模拟和回忆相比,构建一个新颖而具体的未来事件的详细表示过程会使右侧前海马体产生不同程度的活动。未来的研究需要阐明在模拟过程中,编码、新颖性和细节重组是如何使右侧前海马体产生活动的。

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