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      Functional organization of the hippocampal longitudinal axis.

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          Abstract

          The precise functional role of the hippocampus remains a topic of much debate. The dominant view is that the dorsal (or posterior) hippocampus is implicated in memory and spatial navigation and the ventral (or anterior) hippocampus mediates anxiety-related behaviours. However, this 'dichotomy view' may need revision. Gene expression studies demonstrate multiple functional domains along the hippocampal long axis, which often exhibit sharply demarcated borders. By contrast, anatomical studies and electrophysiological recordings in rodents suggest that the long axis is organized along a gradient. Together, these observations suggest a model in which functional long-axis gradients are superimposed on discrete functional domains. This model provides a potential framework to explain and test the multiple functions ascribed to the hippocampus.

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          Microstructure of a spatial map in the entorhinal cortex.

          Torkel Hafting, Marianne Fyhn, Sturla Molden (2005)
          The ability to find one's way depends on neural algorithms that integrate information about place, distance and direction, but the implementation of these operations in cortical microcircuits is poorly understood. Here we show that the dorsocaudal medial entorhinal cortex (dMEC) contains a directionally oriented, topographically organized neural map of the spatial environment. Its key unit is the 'grid cell', which is activated whenever the animal's position coincides with any vertex of a regular grid of equilateral triangles spanning the surface of the environment. Grids of neighbouring cells share a common orientation and spacing, but their vertex locations (their phases) differ. The spacing and size of individual fields increase from dorsal to ventral dMEC. The map is anchored to external landmarks, but persists in their absence, suggesting that grid cells may be part of a generalized, path-integration-based map of the spatial environment.
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            Place navigation impaired in rats with hippocampal lesions

            R. G. M. Morris, P Garrud, J. N. P. Rawlins (1982)
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              Memory, navigation and theta rhythm in the hippocampal-entorhinal system.

              György Buzsáki, Edvard Moser (2013)
              Theories on the functions of the hippocampal system are based largely on two fundamental discoveries: the amnestic consequences of removing the hippocampus and associated structures in the famous patient H.M. and the observation that spiking activity of hippocampal neurons is associated with the spatial position of the rat. In the footsteps of these discoveries, many attempts were made to reconcile these seemingly disparate functions. Here we propose that mechanisms of memory and planning have evolved from mechanisms of navigation in the physical world and hypothesize that the neuronal algorithms underlying navigation in real and mental space are fundamentally the same. We review experimental data in support of this hypothesis and discuss how specific firing patterns and oscillatory dynamics in the entorhinal cortex and hippocampus can support both navigation and memory.
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                Author and article information

                Journal
                Journal ID (iso-abbrev): Nat. Rev. Neurosci.
                Title: Nature reviews. Neuroscience
                ISSN (Electronic): 1471-0048
                ISSN (Print): 1471-003X
                Publication date (Electronic): Oct 2014
                Volume: 15
                Issue: 10
                Affiliations
                [1 ] 1] Laboratory for Clinical Neuroscience, Centre for Biomedical Technology, Technical University of Madrid, Campus de Montegancedo, 28223 Pozuelo de Alarcón, Spain. [2] Department of Neuroimaging, Alzheimer's Disease Research Centre, Reina Sofia-CIEN Foundation, Calle Valderrebollo 5, 28071 Madrid, Spain.
                [2 ] Kavli Institute for Systems Neuroscience and Centre for the Biology of Memory, MTFS, Olav Kyrres gate 9, Norwegian University of Science and Technology, NO-7489 Trondheim, Norway.
                [3 ] Allen Institute for Brain Science, Seattle, Washington 98103, USA.
                Article
                Publisher Item ID: nrn3785
                DOI: 10.1038/nrn3785
                PubMed ID: 25234264
                SO-VID: 29ac90c5-cb23-441e-9a62-49f062818790
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