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认知地图的神经环路基础
Neural Circuit Basis of Cognitive Map

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王琳   王亮 *  
文摘 空间记忆是人类认识世界和改造世界的基本认知能力,与我们的生活息息相关.无论是寻找常用的生活物件,如钥匙和手机,还是外出上班、购物和约会,都依赖我们对周围环境的记忆.截止到目前已有大量研究从不同水平探讨大脑如何表征其周围环境,但仍然有很多未解的问题.本文系统综述了基于脑成像和神经电生理技术开展的空间记忆研究进展.通过梳理以往研究中有关生物体在构建认知地图的神经结构和神经活动规律,提出了海马结构和新皮层对空间记忆的编码环路和表征机制,并在此基础上对未来研究进行了展望.
其他语种文摘 Spatial memory is one of basic cognitive abilities for human to explore the world. It is ubiquitous in our thinking and speaking about our living environment. We essentially rely on spatial knowledge about the external environment not only when finding the objects (e.g., keys and cell phones), but also when shopping, working or dating. Given that special memory plays fundamental and important roles in daily life, it is vital to characterize how the brain represents the environment. Using fMRI and electrophysiological techniques to date, many studies have investigated spatial memory processing and neural mechanisms of hippocampus formation and neocortex. In this review, we focus on the key questions about how the brain constructs the cognitive map and which neural circuits are involved for this processing. Future studies to explore neural basis of human spatial memory will need to be highly interdisciplinary and integrative, and may contribute to the diagnosis and intervention of cognitive disorders.
来源 生物化学与生物物理进展 ,2017,44(3):187-197 【核心库】
DOI 10.16476/j.pibb.2017.0016
关键词 空间记忆 ; 认知地图 ; 海马结构 ; 神经环路 ; 神经振荡
地址

中国科学院心理研究所, 中国科学院心理健康重点实验室;;中国科学院脑科学与智能技术卓越创新中心, 北京, 100101

语种 中文
文献类型 研究性论文
ISSN 1000-3282
学科 普通生物学
基金 北京市科技新星计划项目 ;  中国科学院“百人计划”项目 ;  中组部千人计划 ;  国家自然科学基金
文献收藏号 CSCD:5948636

参考文献 共 107 共6页

1.  Burgess N. Spatial memory: how egocentric and allocentric combine. Trends Cogn Sci,2006,10(12):551-557 被引 13    
2.  Doeller C F. Parallel striatal and hippocampal systems for landmarks and boundaries in spatial memory. Proc Natl Acad Sci USA,2008,105(15):5915-5920 被引 4    
3.  Iaria G. Cognitive strategies dependent on the hippocampus and caudate nucleus in human navigation: variability and change with practice. J Neurosci,2003,23(13):5945-5952 被引 6    
4.  Igloi K. Sequential egocentric strategy is acquired as early as allocentric strategy: parallel acquisition of these two navigation strategies. Hippocampus,2009,19(12):1199-1211 被引 3    
5.  Kunz L. Reduced grid-cell-like representations in adults at genetic risk for Alzheimer's disease. Science,2015,350(6259):430-433 被引 11    
6.  Landgraf S. Real world referencing and schizophrenia: are we experiencing the same reality?. Neuropsychologia,2010,48(10):2922-2930 被引 1    
7.  Serino S. The role of egocentric and allocentric abilities in Alzheimer's disease: a systematic review. Ageing Res Rev,2014,16:32-44 被引 1    
8.  Serino S. Detecting early egocentric and allocentric impairments deficits in Alzheimer's disease: an experimental study with virtual reality. Front Aging Neurosci,2015(7):32-44 被引 1    
9.  Maguire E A. Navigation-related structural change in the hippocampi of taxi drivers. Proc Natl Acad Sci USA,2000,97(8):4398-4403 被引 15    
10.  Suthana N. Memory enhancement and deep-brain stimulation of the entorhinal area. The New England Journal of Medicine,2012,366(6):502-510 被引 11    
11.  Jeffery K J. Optimal cue combination and landmark-stability learning in the head direction system. The Journal of Physiology,2016(594):6527-6534 被引 1    
12.  Fu H. Tau pathology induces excitatory neuron loss, grid cell dysfunction, and spatial memory deficits reminiscent of early Alzheimer's disease. Neuron,2017,93(3):533-541,e535 被引 12    
13.  Tolman E C. Cognitive maps in rats and men. Psychol Rev,1948,55(4):189-208 被引 70    
14.  O'keefe J. The hippocampus as a spatial map. Preliminary evidence from unit activity in the freely-moving rat. Brain Research,1971,34(1):171-175 被引 85    
15.  Bechtel W. Investigating neural representations: the tale of place cells. Synthese,2016,193(5):1287-1321 被引 1    
16.  O'keefe J. Geometric determinants of the place fields of hippocampal neurons. Nature,1996,381(6581):425-428 被引 15    
17.  Rolls E T. Spatial view cells and the representation of place in the primate hippocampus. Hippocampus,1999,9(4):467-480 被引 2    
18.  Ekstrom A D. Cellular networks underlying human spatial navigation. Nature,2003,425(6954):184-187 被引 17    
19.  Bohbot V D. Hippocampal function and spatial memory: evidence from functional neuroimaging in healthy participants and performance of patients with medial temporal lobe resections. Neuropsychology,2004,18(3):418-425 被引 1    
20.  Packard M G. Inactivation of hippocampus or caudate nucleus with lidocaine differentially affects expression of place and response learning. Neurobiology of Learning and Memory,1996,65(1):65-72 被引 8    
引证文献 6

1 吴德伟 无人作战平台认知导航及其类脑实现思想 空军工程大学学报. 自然科学版,2018,19(6):33-38
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2 韩昆 自主导航条件下网格细胞放电模型 电子科技大学学报,2019,48(5):711-716
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