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海马体和内侧前额叶皮质在空间记忆和非空间记忆中的不同作用。

Distinct roles of hippocampus and medial prefrontal cortex in spatial and nonspatial memory.

作者信息

Sapiurka Maya, Squire Larry R, Clark Robert E

机构信息

VA Medical Center, San Diego, California.

Departments of Psychiatry.

出版信息

Hippocampus. 2016 Dec;26(12):1515-1524. doi: 10.1002/hipo.22652. Epub 2016 Sep 22.

DOI:10.1002/hipo.22652
PMID:27576311
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5118193/
Abstract

In earlier work, patients with hippocampal damage successfully path integrated, apparently by maintaining spatial information in working memory. In contrast, rats with hippocampal damage were unable to path integrate, even when the paths were simple and working memory might have been expected to support performance. We considered possible ways to understand these findings. We tested rats with either hippocampal lesions or lesions of medial prefrontal cortex (mPFC) on three tasks of spatial or nonspatial memory: path integration, spatial alternation, and a nonspatial alternation task. Rats with mPFC lesions were impaired on both spatial and nonspatial alternation but performed normally on path integration. By contrast, rats with hippocampal lesions were impaired on path integration and spatial alternation but performed normally on nonspatial alternation. We propose that rodent neocortex is limited in its ability to construct a coherent spatial working memory of complex environments. Accordingly, in tasks such as path integration and spatial alternation, working memory cannot depend on neocortex alone. Rats may accomplish many spatial memory tasks by relying on long-term memory. Alternatively, they may accomplish these tasks within working memory through sustained coordination between hippocampus and other cortical brain regions such as mPFC, in the case of spatial alternation, or parietal cortex in the case of path integration. © 2016 Wiley Periodicals, Inc.

摘要

在早期的研究中,海马体受损的患者能够成功地进行路径整合,显然是通过在工作记忆中保留空间信息来实现的。相比之下,海马体受损的大鼠无法进行路径整合,即使路径很简单,并且原本预计工作记忆能够支持其表现。我们思考了理解这些发现的可能方式。我们对海马体损伤或内侧前额叶皮层(mPFC)损伤的大鼠进行了三项空间或非空间记忆任务的测试:路径整合、空间交替和一项非空间交替任务。mPFC损伤的大鼠在空间和非空间交替任务上均受损,但在路径整合任务上表现正常。相比之下,海马体损伤的大鼠在路径整合和空间交替任务上受损,但在非空间交替任务上表现正常。我们提出,啮齿动物新皮层构建复杂环境连贯空间工作记忆的能力有限。因此,在路径整合和空间交替等任务中,工作记忆不能仅依赖新皮层。大鼠可能通过依赖长期记忆来完成许多空间记忆任务。或者,在空间交替任务中,它们可能通过海马体与其他皮层脑区(如mPFC)之间的持续协调,在路径整合任务中通过海马体与顶叶皮层之间的持续协调,在工作记忆中完成这些任务。© 2016威利期刊公司。

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