不经意间形成记忆：与识别过程中偶然记忆形成相关的内侧颞叶活动。

Making memories without trying: medial temporal lobe activity associated with incidental memory formation during recognition.

作者信息

Stark Craig E L, Okado Yoko

机构信息

Department of Psychological and Brain Sciences, Johns Hopkins University, Baltimore, Maryland 21218, USA.

出版信息

J Neurosci. 2003 Jul 30;23(17):6748-53. doi: 10.1523/JNEUROSCI.23-17-06748.2003.

DOI:10.1523/JNEUROSCI.23-17-06748.2003

PMID:12890767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6740732/

Abstract

Structures in the medial portions of the human temporal lobes (MTL) play a vital role in the ability to learn new facts and events, whether such learning is intentional or incidental. We examined neural activity in the MTL both while participants studied pictures of novel scenes and while they attempted to recognize which scenes had been previously presented. In a second surprise test we assessed participants' memory for items that were presented only during the previous recognition memory test. We present a novel approach to cross-participant alignment of neuroimaging data that provides more precise localization and enhanced statistical power within regions such as the MTL. Using this technique, we observed that the amount of MTL activity predicted participants' ability to subsequently remember scenes not only during the intentional study task, but also during the first memory retrieval test when only incidental encoding occurred. This encoding-related activity during memory retrieval was in the same subregions of the MTL as encoding-related activity during intentional study and is hypothesized to be one of the primary reasons why retrieval-related activity is often difficult to observe with neuroimaging techniques.

摘要

人类颞叶内侧部分（MTL）的结构在学习新事实和事件的能力中起着至关重要的作用，无论这种学习是有意的还是偶然的。我们在参与者研究新场景图片时以及他们试图识别哪些场景先前已呈现时，都对MTL中的神经活动进行了检查。在第二次突击测试中，我们评估了参与者对仅在先前识别记忆测试中呈现的项目的记忆。我们提出了一种新的跨参与者神经成像数据对齐方法，该方法在MTL等区域内提供了更精确的定位和增强的统计能力。使用这种技术，我们观察到MTL活动的量不仅在有意学习任务期间，而且在仅发生偶然编码的第一次记忆检索测试期间，都预测了参与者随后记住场景的能力。记忆检索期间这种与编码相关的活动与有意学习期间与编码相关的活动位于MTL的相同子区域，并且据推测这是为什么使用神经成像技术通常难以观察到与检索相关的活动的主要原因之一。

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