The cognitive map in humans: spatial navigation and beyond

Cognitive maps are internal representations of large-scale navigable spaces. While they have been long studied in rodents, recent work in humans reveals new insights into how cognitive maps are encoded, anchored to environmental landmarks and used to plan routes. Similar neural mechanisms might be u...

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Bibliographic Details
Published in:Nature neuroscience Vol. 20; no. 11; pp. 1504 - 1513
Main Authors: Epstein, Russell A, Patai, Eva Zita, Julian, Joshua B, Spiers, Hugo J
Format: Journal Article
Language:English
Published: New York Nature Publishing Group US 01.11.2017
Nature Publishing Group
Subjects:
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Anchoring
Animal behavior
Animal Genetics and Genomics
Behavioral Sciences
Biological Techniques
Biomedicine
Brain
Brain - physiology
Brain architecture
Brain Mapping
Cognition - physiology
Cognitive ability
Cognitive maps
Cognitive models
Cortex (entorhinal)
Frontal lobe
Functional morphology
Head
Head direction cells
Hippocampus
Humans
Navigation behavior
Neural coding
Neurobiology
Neurosciences
Parahippocampal gyrus
review-article
Rodents
Route planning
Spatial memory
Spatial Navigation - physiology
ISSN:1097-6256, 1546-1726, 1546-1726
Online Access:Get full text
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Summary:Cognitive maps are internal representations of large-scale navigable spaces. While they have been long studied in rodents, recent work in humans reveals new insights into how cognitive maps are encoded, anchored to environmental landmarks and used to plan routes. Similar neural mechanisms might be used to form ‘maps’ of nonphysical spaces. The 'cognitive map' hypothesis proposes that brain builds a unified representation of the spatial environment to support memory and guide future action. Forty years of electrophysiological research in rodents suggest that cognitive maps are neurally instantiated by place, grid, border and head direction cells in the hippocampal formation and related structures. Here we review recent work that suggests a similar functional organization in the human brain and yields insights into how cognitive maps are used during spatial navigation. Specifically, these studies indicate that (i) the human hippocampus and entorhinal cortex support map-like spatial codes, (ii) posterior brain regions such as parahippocampal and retrosplenial cortices provide critical inputs that allow cognitive maps to be anchored to fixed environmental landmarks, and (iii) hippocampal and entorhinal spatial codes are used in conjunction with frontal lobe mechanisms to plan routes during navigation. We also discuss how these three basic elements of cognitive map based navigation—spatial coding, landmark anchoring and route planning—might be applied to nonspatial domains to provide the building blocks for many core elements of human thought.
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ISSN:1097-6256
1546-1726
1546-1726
DOI:10.1038/nn.4656