揭示伪装：杏仁核激活预测诱导知觉洞察力的长期记忆。

Uncovering camouflage: amygdala activation predicts long-term memory of induced perceptual insight.

机构信息

Department of Neurobiology, The Weizmann Institute of Science, Rehovot, Israel.

出版信息

Neuron. 2011 Mar 10;69(5):1002-14. doi: 10.1016/j.neuron.2011.02.013.

DOI:10.1016/j.neuron.2011.02.013

PMID:21382558

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3281502/

Abstract

What brain mechanisms underlie learning of new knowledge from single events? We studied encoding in long-term memory of a unique type of one-shot experience, induced perceptual insight. While undergoing an fMRI brain scan, participants viewed degraded images of real-world pictures where the underlying objects were hard to recognize ("camouflage"), followed by brief exposures to the original images ("solution"), which led to induced insight ("Aha!"). A week later, the participants' memory was tested; a solution image was classified as "remembered" if detailed perceptual knowledge was elicited from the camouflage image alone. During encoding, subsequently remembered images were associated with higher activity in midlevel visual cortex and medial frontal cortex, but most pronouncedly, in the amygdala, whose activity could be used to predict which solutions will remain in long-term memory. Our findings extend the known roles of amygdala in memory to include promotion of long-term memory of the sudden reorganization of internal representations.

摘要

大脑中哪些机制是从单个事件中学习新知识的基础？我们研究了在长期记忆中对一种独特的单次体验——诱发的感知洞察力的编码。在进行 fMRI 大脑扫描时，参与者观看了真实世界图片的低质量版本，这些图片中的物体很难识别（“伪装”），然后短暂地展示了原始图片（“解决方案”），这导致了诱发的洞察力（“啊哈！”）。一周后，对参与者的记忆进行了测试；如果仅从伪装图像中引出详细的感知知识，则将解决方案图像分类为“记住”。在编码过程中，随后被记住的图像与中水平视觉皮层和内侧前额叶皮层的活动相关，但最明显的是与杏仁核的活动相关，杏仁核的活动可以用来预测哪些解决方案将保留在长期记忆中。我们的发现将杏仁核在记忆中的已知作用扩展到包括促进内部表示的突然重新组织的长期记忆。

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