Memory, navigation and theta rhythm in the hippocampal-entorhinal system.
paper
Cited
Public
- Authors
- Buzsáki, György; Moser, Edvard I
- Year
- 2013
- Journal
- Nature neuroscience
- PMID
- 23354386
- DOI
- 10.1038/nn.3304
- PMCID
- PMC4079500
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.
Relationship between navigation and memory. (a) Path integration (also known as dead reckoning) is based on self-referenced information by keeping track of travel distances (time elapsed multiplied by speed) and direction of turns. Calculating translocation relative to the start location allows the animal to return to the start along the shortest (homing) path. (b) Map-based navigation is supported by the relationships among visible or otherwise detectable landmarks. A map is constructed by exploration (path integration). (c) Episodic memory is ‘mental travel’ in time and space referenced to self. (d) Semantic memory is explicit representation of living things, objects, places and events without temporal or contextual references. Semantic knowledge can be acquired through multiple episodes with common elements. We hypothesize that the evolutionary roots of episodic and semantic memory systems are the dead reckoning and landmark-based forms of navigation, respectively.
Grid cells and place cells. (a–d) Firing patterns of entorhinal (a,c) and hippocampal (b,d) principal cells in a two-dimensional open field (a,b) and one-dimensional track (c,d). (a) Grid cell from layer 2 of the entorhinal cortex recorded from a rat exploring a 2-m cylinder. Note increased firing rates (warmer colors) throughout the environment at the apexes of tiling triangles. (b) Singular place field of a CA1 pyramidal neuron recorded from a rodent exploring a square 1 × 1 m. Firing rate of the neuron is color-coded. (c) On a 2-m-long linear track, entorhinal neurons fire at regular intervals (red arrows) but at different positions during left and right journeys. (d) Firing rates of pyramidal cells on a track. CA1 pyramidal cells have typically a single field, present mainly in one direction of travel. Each row represents a neuron. Firing rates are peak-normalized, color-coded and ordered by their peak rates during right or left direction (arrow) of travel. Panels a,c reproduced with permission from ref. 23, b from ref. 74 and d from ref. 35.
Modular organization of the grid-cell network. (a) Stepwise increase of grid spacing at successive dorsoventral levels of medial entorhinal cortex. Spatial autocorrelograms for four example cells (one per dorsoventral module). (b) Remapping of hippocampal place cells in two environments. Top panels show responses of three grid cells to a change in the environment. Independent responses are illustrated by different degrees of rotation and translation. Bottom panels show inputs from the grid cells, each from a different module (purple, green and orange), at different locations in the environments. The three grid cells provide input to a particular CA3 cell (white spot at left) sufficient to cause it to fire when, and only when, the nodes of the three grids overlap. This occurs only at one location in this example. In the second environment, the altered coactivity of the grid cells activates a different subset of place cells at each location, and global remapping is observed in hippocampal place ensembles. Panel a reproduced with permission after ref. 32, b after ref. 33.
Cell assembly sequences, space and time tracking. (a) During physical travel, successive assemblies of neurons (1 to n) respond sequentially owing to the changing constellation of environmental landmarks and/or proprioceptive information from the body (top). During mental travel, sequential activation is supported by self-organized patterning59. Not only first order (neighbor) but also higher order (non-neighbor) connections can be represented in strongly connected recurrent networks. (b) Inferring elapsed time from self-organized cell assembly sequences during wheel running in a spontaneous alternation task. Top left, the rat’s travel path superimposed on the maze. The start area is the wheel (bottom). Top right, normalized firing rate sequence of neurons during wheel running, ordered by the latency of their peak firing rates (each line represents a cell). Bottom, accumulating errors of time prediction (in seconds) calculated from a probabilistic model for inferring elapsed time from the phases of spikes with respect to theta oscillation. Note high precision of time prediction during the entire episode of wheel running. (c) Time tracking by neuron sequences during the delay part of a task of a working memory go/no-go task in a linear maze (top). The delay varied between 10 and 20 s in consecutive blocks, as indicated by the length of the yellow lines (bottom). Some neurons maintain their spike timing (left), whereas others ‘re-time’ (right) when the length is abruptly changed. Panel b reprinted with permission from ref. 65, c from ref. 93.
Theta oscillations link assembly sequences. (a) Overlapping place fields of two hippocampal neurons (green and blue) on a track. (b) Theta phase of each spike as a function of position in the place fields of the two neurons. Note precession of spikes from late to early phases as the rat crosses the place fields83. Two theta cycles are shown for clarity. (c) Cross-correlation between the reference (blue) and overlapping (green) place cells. Δ time is the time lag between the spikes of two neurons within the theta cycle (‘theta time’). (d) Correlation between the distances of place field peaks and theta-scale time lags for >3,000 pairs of CA1 place cells. Note that the duration of the theta cycle limits distance resolution (red sigmoid curve). Panels a–c reproduced with permission after ref. 86, d after ref. 84.
Cell assembly segregation role of theta oscillation. (a) Place fields of two pyramidal cells (P1 and P2) and a putative basket cell interneuron (IN) on a linear track. (b) Mean phase precession of P1 (red stars) and P2 (magenta dots), superimposed on the interneuron’s color-coded and smoothed density of firing in theta phase space. Note the similar phase slopes of P1 and the interneuron and firing minima of the interneuron in the phase space of P2. (c) Model of theta phase selection by means of inhibition between competing assemblies. The interneuron is driven by the assembly of which P1 is a member and prevents discharge activity of a competing assembly of which P2 is a member. (d) Cartoon of phase segregation of seven cell assemblies in the entire phase space of the theta cycle (top). Perturbation of perisomatic inhibition reduces assembly segregation81 so that ‘information’ from the scrambled assembly sequence will become difficult to read out by downstream observer mechanisms (bottom). Panel a reproduced with permission after ref. 80.
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| Interhemispheric theta coherence in the hippocampus for successful object-location memory in human intracranial encephalography. | Min Park Y et al. | — | 2022 | → |
| Introduction to the special issue on the ontogeny of hippocampal functions. | Ohana O et al. | — | 2022 | → |
| Kinematic strategies for obstacle-crossing in older adults with mild cognitive impairment. | Lu SH et al. | — | 2022 | → |
| Kisspeptin impacts on circadian and ultradian rhythms of core body temperature: Evidence in kisspeptin receptor knockout and kisspeptin knockdown mice. | Kavanagh GS et al. | — | 2022 | → |
| Largely intact memory for spatial locations during navigation in an individual with dense amnesia. | McAvan AS et al. | — | 2022 | → |
| Local field potentials reflect cortical population dynamics in a region-specific and frequency-dependent manner. | Gallego-Carracedo C et al. | — | 2022 | → |
| Loss of GABA co-transmission from cholinergic neurons impairs behaviors related to hippocampal, striatal, and medial prefrontal cortex functions. | Goral RO et al. | — | 2022 | → |
| Loss of LAMP5 interneurons drives neuronal network dysfunction in Alzheimer's disease. | Deng Y et al. | — | 2022 | → |
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| Microcircuits for spatial coding in the medial entorhinal cortex. | Tukker JJ et al. | — | 2022 | → |
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| Mossy cells of the dentate gyrus: Drivers or inhibitors of epileptic seizures? | Kecskés A et al. | — | 2022 | → |
| Multiple-Timescale Representations of Space: Linking Memory to Navigation. | Tang W et al. | — | 2022 | → |
| Natural behavior is the language of the brain. | Miller CT et al. | — | 2022 | → |
| Navigating the Statistical Minefield of Model Selection and Clustering in Neuroscience. | Király B et al. | — | 2022 | → |
| Neural Patterns in Parietal Cortex and Hippocampus Distinguish Retrieval of Start versus End Positions in Working Memory. | Cristoforetti G et al. | — | 2022 | → |
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| Neuronal ensembles in memory processes. | Carrillo-Reid L | — | 2022 | → |
| Neurons as will and representation. | Fried I | — | 2022 | → |
| Neurophysiological Evidence for Cognitive Map Formation during Sequence Learning. | Stiso J et al. | — | 2022 | → |
| Neurophysiology of Remembering. | Buzsáki G et al. | — | 2022 | → |
| Non-spatial similarity can bias spatial distances in a cognitive map. | Xing X et al. | — | 2022 | → |
| Optogenetic Suppression of Lateral Septum Somatostatin Neurons Enhances Hippocampus Cholinergic Theta Oscillations and Local Synchrony. | Espinosa N et al. | — | 2022 | → |
| Oscillatory delta and theta frequencies differentially support multiple items encoding to optimize memory performance during the digit span task. | Aktürk T et al. | — | 2022 | → |
| Out of Rhythm: Compromised Precision of Theta-Gamma Coupling Impairs Associative Memory in Old Age. | Karlsson AE et al. | — | 2022 | → |
| Parvalbumin expressing interneurons control spike-phase coupling of hippocampal cells to theta oscillations. | Strüber M et al. | — | 2022 | → |
| Phase-Amplitude Coupling and Phase Synchronization Between Medial Temporal, Frontal and Posterior Brain Regions Support Episodic Autobiographical Memory Recall. | Roehri N et al. | — | 2022 | → |
| Proximal CA1 20-40 Hz power dynamics reflect trial-specific information processing supporting nonspatial sequence memory. | Gattas S et al. | — | 2022 | → |
| Reconciling neuronal representations of schema, abstract task structure, and categorization under cognitive maps in the entorhinal-hippocampal-frontal circuits. | Igarashi KM et al. | — | 2022 | → |
| Reorganization of CA1 dendritic dynamics by hippocampal sharp-wave ripples during learning. | Rolotti SV et al. | — | 2022 | → |
| Reorganizations of latency structures within the white matter from wakefulness to sleep. | Guo B et al. | — | 2022 | → |
| Replays of socially acquired information in the hippocampus. | Fujisawa S et al. | — | 2022 | → |
| Response Flexibility: The Role of the Lateral Habenula. | Hones VI et al. | — | 2022 | → |
| Rhythmic sampling revisited: Experimental paradigms and neural mechanisms. | Kienitz R et al. | — | 2022 | → |
| Seeking motivation and reward: Roles of dopamine, hippocampus, and supramammillo-septal pathway. | Kesner AJ et al. | — | 2022 | → |
| Sense of self impacts spatial navigation and hexadirectional coding in human entorhinal cortex. | Moon HJ et al. | — | 2022 | → |
| Septotemporal variation in modulation of synaptic transmission, paired-pulse ratio and frequency facilitation/depression by adenosine and GABA<sub>B</sub> receptors in the rat hippocampus. | A Samara M et al. | — | 2022 | → |
| Sex- and estrous-cycle dependent dorsal hippocampal phosphoproteomic changes induced by low-dose ketamine. | Saland SK et al. | — | 2022 | → |
| Signatures of rapid plasticity in hippocampal CA1 representations during novel experiences. | Priestley JB et al. | — | 2022 | → |
| Social Learning of a Spatial Task by Observation Alone. | Doublet T et al. | — | 2022 | → |
| Spatio-temporal theta pattern dissimilarity in the right centro-parietal area during memory generalization. | Heinbockel H et al. | — | 2022 | → |
| Sustained Activation of the Anterior Thalamic Neurons with Low Doses of Kainic Acid Boosts Hippocampal Neurogenesis. | Chamaa F et al. | — | 2022 | → |
| Synthetic Spatial Foraging With Active Inference in a Geocaching Task. | Neacsu V et al. | — | 2022 | → |
| Task-selective place cells show behaviorally driven dynamics during learning and stability during memory recall. | Zemla R et al. | — | 2022 | → |
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| The evidence for and against reactivation-induced memory updating in humans and nonhuman animals. | Jardine KH et al. | — | 2022 | → |
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| The hippocampal formation as a hierarchical generative model supporting generative replay and continual learning. | Stoianov I et al. | — | 2022 | → |
| The lateral entorhinal cortex is a hub for local and global dysfunction in early Alzheimer's disease states. | Mandino F et al. | — | 2022 | → |
| The neural bases for timing of durations. | Tsao A et al. | — | 2022 | → |
| The rapid developmental rise of somatic inhibition disengages hippocampal dynamics from self-motion. | Dard RF et al. | — | 2022 | → |
| The Split-Half Reliability and Construct Validity of the Virtual Reality-Based Path Integration Task in the Healthy Population. | Fu X et al. | — | 2022 | → |
| Theta and gamma oscillatory dynamics in mouse models of Alzheimer's disease: A path to prospective therapeutic intervention. | Mehak SF et al. | — | 2022 | → |
| Theta Band-Power Shapes Amyloid-Driven Longitudinal EEG Changes in Elderly Subjective Memory Complainers At-Risk for Alzheimer's Disease. | Spinelli G et al. | — | 2022 | → |
| Theta oscillations support active exploration in human spatial navigation. | Chrastil ER et al. | — | 2022 | → |
| Theta waves, neural spikes and seizures can propagate by ephaptic coupling in vivo. | Subramanian M et al. | — | 2022 | → |
| Time Is of the Essence: Neural Codes, Synchronies, Oscillations, Architectures. | Cariani P et al. | — | 2022 | → |
| Trace classical conditioning impairment after lesion of the lateral part of the goldfish telencephalic pallium suggests a long ancestry of the episodic memory function of the vertebrate hippocampus. | Gómez A et al. | — | 2022 | → |
| Transcriptomic taxonomy and neurogenic trajectories of adult human, macaque, and pig hippocampal and entorhinal cells. | Franjic D et al. | — | 2022 | → |
| Transformer maze for the evaluation of the learning and memory in rodents. | Filatova E | — | 2022 | → |
| Vasopressin as a Possible Link between Sleep-Disturbances and Memory Problems. | Török B et al. | — | 2022 | → |
| Visuosocial Preference Memory, but Not Avoidance Memory, Requires PLCγ1 in the CA2 Hippocampus. | Kim S et al. | — | 2022 | → |
| Whole-brain studies of spontaneous behavior in head-fixed rats enabled by zero echo time MB-SWIFT fMRI. | Paasonen J et al. | — | 2022 | → |
| 5-HT7 receptor activation rescues impaired synaptic plasticity in an autistic-like rat model induced by prenatal VPA exposure. | Khodaverdi M et al. | — | 2021 | → |
| Abnormal theta oscillation aggravated by chronic stress in the CA1 may mediate the deterioration of fear memory impairment induced by lipopolysaccharide. | Mao MJ et al. | — | 2021 | → |
| A conserved role for sleep in supporting Spatial Learning in Drosophila. | Melnattur K et al. | — | 2021 | → |
| Acute and Post-Traumatic Stress Disorders: A biased nervous system. | Allene C et al. | — | 2021 | → |
| Adaptive learning is structure learning in time. | Yu LQ et al. | — | 2021 | → |
| Altered Dynamic Functional Connectivity in Subcortical Ischemic Vascular Disease With Cognitive Impairment. | Xu Y et al. | — | 2021 | → |
| A Model of the CA1 Field Rhythms. | Mysin I | — | 2021 | → |
| Amygdala-hippocampal interactions in synaptic plasticity and memory formation. | Roesler R et al. | — | 2021 | → |
| A neural code for egocentric spatial maps in the human medial temporal lobe. | Kunz L et al. | — | 2021 | → |
| A Neural Model of Intrinsic and Extrinsic Hippocampal Theta Rhythms: Anatomy, Neurophysiology, and Function. | Grossberg S | — | 2021 | → |
| A novel somatosensory spatial navigation system outside the hippocampal formation. | Long X et al. | — | 2021 | → |
| Bidirectional synaptic plasticity rapidly modifies hippocampal representations. | Milstein AD et al. | — | 2021 | → |
| Characterization of basal forebrain glutamate neurons suggests a role in control of arousal and avoidance behavior. | McKenna JT et al. | — | 2021 | → |
| Cognitive effects of theta frequency bilateral subthalamic nucleus stimulation in Parkinson's disease: A pilot study. | Lam J et al. | — | 2021 | → |
| Commonalities and specificities between environmental navigation and autobiographical memory: A synthesis and a theoretical perspective. | Teghil A et al. | — | 2021 | → |
| Comparative Study on the Functional Connectivity of Amygdala and Hippocampal Neural Circuits in Patients With First-Episode Schizophrenia and Other High-Risk Populations. | Wang X et al. | — | 2021 | → |
| Comparison of Hippocampal Subfield Segmentation Agreement between 2 Automated Protocols across the Adult Life Span. | Samara A et al. | — | 2021 | → |
| Continuous artificial light at night exacerbates diisononyl phthalate-induced learning and memory impairment in mice: Toxicological evidence. | Song P et al. | — | 2021 | → |
| Crucial role for CA2 inputs in the sequential organization of CA1 time cells supporting memory. | MacDonald CJ et al. | — | 2021 | → |
| Deep reinforcement learning to study spatial navigation, learning and memory in artificial and biological agents. | Bermudez-Contreras E | — | 2021 | → |
| Differential Impact of Acute and Chronic Stress on CA1 Spatial Coding and Gamma Oscillations. | Tomar A et al. | — | 2021 | → |
| Disorganization of Oscillatory Activity in Animal Models of Schizophrenia. | Speers LJ et al. | — | 2021 | → |
| Dissecting and modeling photic and melanopsin effects to predict sleep disturbances induced by irregular light exposure in mice. | Hubbard J et al. | — | 2021 | → |
| Distribution of acetylcholinesterase in the hippocampal formation of the Atlantic white-sided dolphin (Lagenorhynchus acutus). | Reid GA et al. | — | 2021 | → |
| Dopamine facilitates associative memory encoding in the entorhinal cortex. | Lee JY et al. | — | 2021 | → |
| EEG, MEG and neuromodulatory approaches to explore cognition: Current status and future directions. | Beppi C et al. | — | 2021 | → |
| Effects of direct current stimulation on synaptic plasticity in a single neuron. | Farahani F et al. | — | 2021 | → |
| Electroconvulsive Shock, but Not Transcranial Magnetic Stimulation, Transiently Elevates Cell Proliferation in the Adult Mouse Hippocampus. | Zhang TR et al. | — | 2021 | → |
| Electroencephalographic dynamics of etomidate-induced loss of consciousness. | Zhang L et al. | — | 2021 | → |
| Enhancing Organizational Memory Through Virtual Memoryscapes: Does It Work? | Mastrogiorgio A et al. | — | 2021 | → |
| Evidence for two distinct thalamocortical circuits in retrosplenial cortex. | Lomi E et al. | — | 2021 | → |
| Features of intracranial interictal epileptiform discharges associated with memory encoding. | Quon RJ et al. | — | 2021 | → |
| Flexible modulation of sequence generation in the entorhinal-hippocampal system. | McNamee DC et al. | — | 2021 | → |
| Frequency-dependent layer-specific differences in short-term synaptic plasticity in the dorsal and ventral CA1 hippocampal field. | Koutsoumpa A et al. | — | 2021 | → |
| Frequency of theta rhythm is controlled by acceleration, but not speed, in running rats. | Kropff E et al. | — | 2021 | → |
| Highlights From AES2020, a Virtual American Epilepsy Society Experience. | Jobst BC et al. | — | 2021 | → |
| Hippocampal cytogenesis abrogation impairs inter-regional communication between the hippocampus and prefrontal cortex and promotes the time-dependent manifestation of emotional and cognitive deficits. | Mateus-Pinheiro A et al. | — | 2021 | → |
| Hippocampal hyperactivity in a rat model of Alzheimer's disease. | Sosulina L et al. | — | 2021 | → |
| Hippocampal β2-GABA<sub>A</sub> receptors mediate LTP suppression by etomidate and contribute to long-lasting feedback but not feedforward inhibition of pyramidal neurons. | Figueroa AG et al. | — | 2021 | → |
| Hypothalamic Glutamate/GABA Cotransmission Modulates Hippocampal Circuits and Supports Long-Term Potentiation. | Ajibola MI et al. | — | 2021 | → |
| Identifying the neurophysiological effects of memory-enhancing amygdala stimulation using interpretable machine learning. | Sendi MSE et al. | — | 2021 | → |
| Impact of preweaning stress on long-term neurobehavioral outcomes in Sprague-Dawley rats: Differential effects of barren cage rearing, pup isolation, and the combination. | Sprowles JLN et al. | — | 2021 | → |
| Increasing human motor skill acquisition by driving theta-gamma coupling. | Akkad H et al. | — | 2021 | → |
| Interplay between 5-HT4 Receptors and GABAergic System within CA1 Hippocampal Synaptic Plasticity. | Lecouflet P et al. | — | 2021 | → |
| Involvement of the <i>Nucleus Incertus</i> and Relaxin-3/RXFP3 Signaling System in Explicit and Implicit Memory. | Gil-Miravet I et al. | — | 2021 | → |
| Issues in the design, analysis, and application of rodent developmental neurotoxicology studies. | Vorhees CV et al. | — | 2021 | → |
| Laminar distribution of electrically evoked hippocampal short latency ripple activity highlights the importance of the subiculum in vivo in human epilepsy, an intraoperative study. | Tóth E et al. | — | 2021 | → |
| Linking hippocampal multiplexed tuning, Hebbian plasticity and navigation. | Moore JJ et al. | — | 2021 | → |
| Local circuit allowing hypothalamic control of hippocampal area CA2 activity and consequences for CA1. | Robert V et al. | — | 2021 | → |
| Longitudinal Assessment of Working Memory Performance in the APPswe/PSEN1dE9 Mouse Model of Alzheimer's Disease Using an Automated Figure-8-Maze. | van Heusden FC et al. | — | 2021 | → |
| Long-term stimulation of the anteromedial thalamus increases hippocampal neurogenesis and spatial reference memory in adult rats. | Chamaa F et al. | — | 2021 | → |
| LTD is involved in the formation and maintenance of rat hippocampal CA1 place-cell fields. | Ashby DM et al. | — | 2021 | → |
| Mapping cognitive brain functions at scale. | Balasubramani PP et al. | — | 2021 | → |
| Microglia Function on Precursor Cells in the Adult Hippocampus and Their Responsiveness to Serotonin Signaling. | Turkin A et al. | — | 2021 | → |
| Model of theta frequency perturbations and contextual fear memory. | Castegnetti G et al. | — | 2021 | → |
| Modular Network between Postrhinal Visual Cortex, Amygdala, and Entorhinal Cortex. | Meier AM et al. | — | 2021 | → |
| Modulation of neural oscillations during working memory update, maintenance, and readout: An hdEEG study. | Semprini M et al. | — | 2021 | → |
| Modulation of recognition memory performance by light and its relationship with cortical EEG theta and gamma activities. | Hasan S et al. | — | 2021 | → |
| Mouse entorhinal cortex encodes a diverse repertoire of self-motion signals. | Mallory CS et al. | — | 2021 | → |
| Multicentric tracking of multiple agents by anterior cingulate cortex during pursuit and evasion. | Yoo SBM et al. | — | 2021 | → |
| Navigation using global or local reference frames in rats with medial and lateral entorhinal cortex lesions. | Poitreau J et al. | — | 2021 | → |
| NEIL1 and NEIL2 DNA glycosylases modulate anxiety and learning in a cooperative manner in mice. | Hildrestrand GA et al. | — | 2021 | → |
| Neural Circuitry-Neurogenesis Coupling Model of Depression. | Kim IB et al. | — | 2021 | → |
| Neural representations of space in the hippocampus of a food-caching bird. | Payne HL et al. | — | 2021 | → |
| Neurogenic-dependent changes in hippocampal circuitry underlie the procognitive effect of exercise in aging mice. | Zhou XA et al. | — | 2021 | → |
| Neuronal oscillations and the mouse prefrontal cortex. | Jung F et al. | — | 2021 | → |
| Neuronal pericellular baskets: neurotransmitter convergence and regulation of network excitability. | Senft RA et al. | — | 2021 | → |
| Normal and Abnormal Sharp Wave Ripples in the Hippocampal-Entorhinal Cortex System: Implications for Memory Consolidation, Alzheimer's Disease, and Temporal Lobe Epilepsy. | Zhen ZH et al. | — | 2021 | → |
| Object recognition and Morris water maze to detect cognitive impairment from mild hippocampal damage in rats: A reflection based on the literature and experience. | Lissner LJ et al. | — | 2021 | → |
| On the relationship between trait autobiographical episodic memory and spatial navigation. | Fan CL et al. | — | 2021 | → |
| Optogenetic pacing of medial septum parvalbumin-positive cells disrupts temporal but not spatial firing in grid cells. | Lepperød ME et al. | — | 2021 | → |
| Parcellation of the Hippocampus According to Its Connection Probability with Prefrontal Cortex Subdivisions in a Malaysian Malay Population: Preliminary Findings. | Abdullah AN et al. | — | 2021 | → |
| Patient-Tailored, Home-Based Non-invasive Brain Stimulation for Memory Deficits in Dementia Due to Alzheimer's Disease. | Bréchet L et al. | — | 2021 | → |
| Place fields of single spikes in hippocampus involve Kcnq3 channel-dependent entrainment of complex spike bursts. | Gao X et al. | — | 2021 | → |
| Predictive learning as a network mechanism for extracting low-dimensional latent space representations. | Recanatesi S et al. | — | 2021 | → |
| Reconciling the object and spatial processing views of the perirhinal cortex through task-relevant unitization. | Fiorilli J et al. | — | 2021 | → |
| Regional variation in neurovascular coupling and why we still lack a Rosetta Stone. | Ekstrom AD | — | 2021 | → |
| Resolving cellular and molecular diversity along the hippocampal anterior-to-posterior axis in humans. | Ayhan F et al. | — | 2021 | → |
| Rethinking GPS navigation: creating cognitive maps through auditory clues. | Clemenson GD et al. | — | 2021 | → |
| Ripples for recall: The hippocampus constructing the context? | Brodt S et al. | — | 2021 | → |
| Scalable representation of time in the hippocampus. | Shimbo A et al. | — | 2021 | → |
| Skipping ahead: A circuit for representing the past, present, and future. | Robinson JC et al. | — | 2021 | → |
| Sleep-Wake Rhythm and Oscillatory Pattern Analysis in a Multiple Hit Schizophrenia Rat Model (Wisket). | Adlan LG et al. | — | 2021 | → |
| Spatial Cognition in Teleost Fish: Strategies and Mechanisms. | Rodríguez F et al. | — | 2021 | → |
| Spatial inference without a cognitive map: the role of higher-order path integration. | Bouchekioua Y et al. | — | 2021 | → |
| Spatialization of Time in the Entorhinal-Hippocampal System. | Houser TM | — | 2021 | → |
| Spatial modulation of hippocampal activity in freely moving macaques. | Mao D et al. | — | 2021 | → |
| Stress enhances emotional memory-related theta oscillations in the medial temporal lobe. | Heinbockel H et al. | — | 2021 | → |
| Suppression of Circadian Timing and Its Impact on the Hippocampus. | Ruby NF | — | 2021 | → |
| Supramammillary neurons projecting to the septum regulate dopamine and motivation for environmental interaction in mice. | Kesner AJ et al. | — | 2021 | → |
| Temporally delayed linear modelling (TDLM) measures replay in both animals and humans. | Liu Y et al. | — | 2021 | → |
| Temporo-Frontal Coherences and High-Frequency iEEG Responses during Spatial Navigation in Patients with Drug-Resistant Epilepsy. | Thomschewski A et al. | — | 2021 | → |
| The Entorhinal Cortex and Adult Neurogenesis in Major Depression. | Kim IB et al. | — | 2021 | → |
| The grid code for ordered experience. | Rueckemann JW et al. | — | 2021 | → |
| The hippocampal formation of two carnivore species: The feliform banded mongoose and the caniform domestic ferret. | Pillay S et al. | — | 2021 | → |
| The hippocampus converts dynamic entorhinal inputs into stable spatial maps. | Cholvin T et al. | — | 2021 | → |
| The medial entorhinal cortex mediates basolateral amygdala effects on spatial memory and downstream activity-regulated cytoskeletal-associated protein expression. | Wahlstrom KL et al. | — | 2021 | → |
| The olfactory bulb modulates entorhinal cortex oscillations during spatial working memory. | Salimi M et al. | — | 2021 | → |
| The Oscillatory Profile Induced by the Anxiogenic Drug FG-7142 in the Amygdala-Hippocampal Network Is Reversed by Infralimbic Deep Brain Stimulation: Relevance for Mood Disorders. | Vila-Merkle H et al. | — | 2021 | → |
| The Role of the Posterior Hypothalamus in the Modulation and Production of Rhythmic Theta Oscillations. | Kowalczyk T et al. | — | 2021 | → |
| Theta-burst stimulation entrains frequency-specific oscillatory responses. | Solomon EA et al. | — | 2021 | → |
| Theta power and theta-gamma coupling support long-term spatial memory retrieval. | Vivekananda U et al. | — | 2021 | → |
| The Theta Rhythm of the Hippocampus: From Neuronal and Circuit Mechanisms to Behavior. | Nuñez A et al. | — | 2021 | → |
| The what and when of olfactory working memory in humans. | Yang AI et al. | — | 2021 | → |
| Translating Neurobehavioral Toxicity Across Species From Zebrafish to Rats to Humans: Implications for Risk Assessment. | Vorhees CV et al. | — | 2021 | → |
| Travel in the Physical and Mental Space: A Behavioral Assessment of the Phylogenetic Continuity Hypothesis Between Egocentric Navigation and Episodic Memory. | Fragueiro A et al. | — | 2021 | → |
| Ventro-dorsal Hippocampal Pathway Gates Novelty-Induced Contextual Memory Formation. | Fredes F et al. | — | 2021 | → |
| Volitional learning promotes theta phase coding in the human hippocampus. | Pacheco Estefan D et al. | — | 2021 | → |
| Α Virtual Reality App for Physical and Cognitive Training of Older People With Mild Cognitive Impairment: Mixed Methods Feasibility Study. | Hassandra M et al. | — | 2021 | → |
| A differential role for human hippocampus in novelty and contextual processing: Implications for P300. | Fonken YM et al. | — | 2020 | → |
| Allocentric representations of space in the hippocampus. | Danjo T | — | 2020 | → |
| Altered Intrinsic Brain Activities in Patients with Diabetic Retinopathy Using Amplitude of Low-frequency Fluctuation: A Resting-state fMRI Study. | Qi CX et al. | — | 2020 | → |
| A potential entanglement between the spinal cord and hippocampus: Theta rhythm correlates with neurogenesis deficiency following spinal cord injury in male rats. | Soltani Zangbar H et al. | — | 2020 | → |
| Awake delta and theta-rhythmic hippocampal network modes during intermittent locomotor behaviors in the rat. | Schultheiss NW et al. | — | 2020 | → |
| Beta-band power modulation in the human hippocampus during a reaching task. | Del Campo-Vera RM et al. | — | 2020 | → |
| Chloride dynamics alter the input-output properties of neurons. | Currin CB et al. | — | 2020 | → |
| Clinical Relevance of Behavior Testing in Animal Models of Traumatic Brain Injury. | Shultz SR et al. | — | 2020 | → |
| Communication Through Coherence by Means of Cross-frequency Coupling. | González J et al. | — | 2020 | → |
| Context-dependent representations of objects and space in the primate hippocampus during virtual navigation. | Gulli RA et al. | — | 2020 | → |
| Control of locomotor speed, arousal, and hippocampal theta rhythms by the nucleus incertus. | Lu L et al. | — | 2020 | → |
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| Dance on the Brain: Enhancing Intra- and Inter-Brain Synchrony. | Basso JC et al. | — | 2020 | → |
| Deep Brain Stimulation of the Medial Septal Nucleus Induces Expression of a Virally Delivered Reporter Gene in Dentate Gyrus. | Fomenko A et al. | — | 2020 | → |
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| Different theta frameworks coexist in the rat hippocampus and are coordinated during memory-guided and novelty tasks. | López-Madrona VJ et al. | — | 2020 | → |
| Direct Medial Entorhinal Cortex Input to Hippocampal CA3 Is Crucial for eEF2K Inhibitor-Induced Neuronal Oscillations in the Mouse Hippocampus. | Liu Z et al. | — | 2020 | → |
| Disrupted Brain Structural Connectivity Network in Subcortical Ischemic Vascular Cognitive Impairment With No Dementia. | Sang L et al. | — | 2020 | → |
| Distinct directional couplings between slow and fast gamma power to the phase of theta oscillations in the rat hippocampus. | Jiang H et al. | — | 2020 | → |
| Does the Cerebellum Implement or Select Geometries? A Speculative Note. | Habas C et al. | — | 2020 | → |
| Dorsal and Ventral Hippocampal Sharp-Wave Ripples Activate Distinct Nucleus Accumbens Networks. | Sosa M et al. | — | 2020 | → |
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| Hippocampal Interneuronal α7 nAChRs Modulate Theta Oscillations in Freely Moving Mice. | Gu Z et al. | — | 2020 | → |
| Hippocampal Network Reorganization Underlies the Formation of a Temporal Association Memory. | Ahmed MS et al. | — | 2020 | → |
| Hippocampal subfield volumes are nonspecifically reduced in premature-born adults. | Hedderich DM et al. | — | 2020 | → |
| Hippocampal theta coordinates memory processing during visual exploration. | Kragel JE et al. | — | 2020 | → |
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| Human subsystems of medial temporal lobes extend locally to amygdala nuclei and globally to an allostatic-interoceptive system. | Ruiz-Rizzo AL et al. | — | 2020 | → |
| Impact of anesthesia exposure in early development on learning and sensory functions. | Aksenov DP et al. | — | 2020 | → |
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| Knowledge Across Reference Frames: Cognitive Maps and Image Spaces. | Bottini R et al. | — | 2020 | → |
| Laser microdissection-based microproteomics of the hippocampus of a rat epilepsy model reveals regional differences in protein abundances. | do Canto AM et al. | — | 2020 | → |
| Learning, memory and consolidation mechanisms for behavioral control in hierarchically organized cortico-basal ganglia systems. | Rusu SI et al. | — | 2020 | → |
| Linking Detail to Temporal Structure in Naturalistic-Event Recall. | Diamond NB et al. | — | 2020 | → |
| Linking Social Cognition to Learning and Memory. | Leblanc H et al. | — | 2020 | → |
| Long-Term Impact of Early-Life Stress on Hippocampal Plasticity: Spotlight on Astrocytes. | Çalışkan G et al. | — | 2020 | → |
| Loss of Circadian Timing Disrupts Theta Episodes during Object Exploration. | Loewke AC et al. | — | 2020 | → |
| Mapping Cell Types and Efferent Pathways in the Ascending Relaxin-3 System of the Nucleus Incertus. | Nasirova N et al. | — | 2020 | → |
| Medial entorhinal cortex lesions induce degradation of CA1 place cell firing stability when self-motion information is used. | Jacob PY et al. | — | 2020 | → |
| Model-driven neuromodulation of the right posterior region promotes encoding of long-term memories. | Alekseichuk I et al. | — | 2020 | → |
| Modulation of Human Memory by Deep Brain Stimulation of the Entorhinal-Hippocampal Circuitry. | Mankin EA et al. | — | 2020 | → |
| Neuronal Computation Underlying Inferential Reasoning in Humans and Mice. | Barron HC et al. | — | 2020 | → |
| No Pattern Separation in the Human Hippocampus. | Quian Quiroga R | — | 2020 | → |
| OPETH: Open Source Solution for Real-Time Peri-Event Time Histogram Based on Open Ephys. | Széll A et al. | — | 2020 | → |
| Optogenetic activation of parvalbumin and somatostatin interneurons selectively restores theta-nested gamma oscillations and oscillation-induced spike timing-dependent long-term potentiation impaired by amyloid β oligomers. | Park K et al. | — | 2020 | → |
| Overarching Principles and Dimensions of the Functional Organization in the Inferior Parietal Cortex. | Humphreys GF et al. | — | 2020 | → |
| Potential factors influencing replay across CA1 during sharp-wave ripples. | de la Prida LM | — | 2020 | → |
| Precision, binding, and the hippocampus: Precisely what are we talking about? | Ekstrom AD et al. | — | 2020 | → |
| Processing of Hippocampal Network Activity in the Receiver Network of the Medial Entorhinal Cortex Layer V. | Rozov A et al. | — | 2020 | → |
| Prognostic factors for change in memory test performance after memory training in healthy older adults: a systematic review and outline of statistical challenges. | Roheger M et al. | — | 2020 | → |
| Recursive music elucidates neural mechanisms supporting the generation and detection of melodic hierarchies. | Martins MJD et al. | — | 2020 | → |
| Representation of edges, head direction, and swimming kinematics in the brain of freely-navigating fish. | Vinepinsky E et al. | — | 2020 | → |
| Repression of eEF2 kinase improves deficits in novel object recognition memory in aged mice. | Gosrani SP et al. | — | 2020 | → |
| Retrieval of allocentric spatial memories is preserved up to thirty days and does not require higher brain metabolic demands. | Zorzo C et al. | — | 2020 | → |
| Sequence Memory in the Hippocampal-Entorhinal Region. | Bellmund JLS et al. | — | 2020 | → |
| Sleep Deprivation Aggravates Cognitive Impairment by the Alteration of Hippocampal Neuronal Activity and the Density of Dendritic Spine in Isoflurane-Exposed Mice. | Zhang K et al. | — | 2020 | → |
| Sources of path integration error in young and aging humans. | Stangl M et al. | — | 2020 | → |
| Spatial Navigation. | Jin W et al. | — | 2020 | → |
| Specific Increase of Hippocampal Delta Oscillations Across Consecutive Treadmill Runs. | Furtunato AMB et al. | — | 2020 | → |
| Stress Disrupts Human Hippocampal-Prefrontal Function during Prospective Spatial Navigation and Hinders Flexible Behavior. | Brown TI et al. | — | 2020 | → |
| Sub-chronic vortioxetine (but not escitalopram) normalizes brain rhythm alterations and memory deficits induced by serotonin depletion in rats. | Riga MS et al. | — | 2020 | → |
| Task-dependent effects of intracranial hippocampal stimulation on human memory and hippocampal theta power. | Jun S et al. | — | 2020 | → |
| The brain in motion: How ensemble fluidity drives memory-updating and flexibility. | Mau W et al. | — | 2020 | → |
| The intersection between the oculomotor and hippocampal memory systems: empirical developments and clinical implications. | Ryan JD et al. | — | 2020 | → |
| Themes of advanced information processing in the primate brain. | Friedman R | — | 2020 | → |
| The neural circuitry supporting successful spatial navigation despite variable movement speeds. | Sheeran WM et al. | — | 2020 | → |
| The Neuroscience of Spatial Navigation and the Relationship to Artificial Intelligence. | Bermudez-Contreras E et al. | — | 2020 | → |
| Theta Oscillations Coincide with Sustained Hyperpolarization in CA3 Pyramidal Cells, Underlying Decreased Firing. | Malezieux M et al. | — | 2020 | → |
| Theta Oscillations in Human Memory. | Herweg NA et al. | — | 2020 | → |
| The two faces of synaptic failure in App<sup>NL-G-F</sup> knock-in mice. | Latif-Hernandez A et al. | — | 2020 | → |
| The (Un)Conscious Mouse as a Model for Human Brain Functions: Key Principles of Anesthesia and Their Impact on Translational Neuroimaging. | Reimann HM et al. | — | 2020 | → |
| Traumatic Brain Injury Preserves Firing Rates But Disrupts Laminar Oscillatory Coupling and Neuronal Entrainment in Hippocampal CA1. | Koch PF et al. | — | 2020 | → |
| Update on temporal lobe-dependent information processing, in health and disease. | Chauvière L | — | 2020 | → |
| Vagal nerve stimulation as a promising tool in the improvement of cognitive disorders. | Broncel A et al. | — | 2020 | → |
| Affective, neurocognitive and psychosocial disorders associated with traumatic brain injury and post-traumatic epilepsy. | Semple BD et al. | — | 2019 | → |
| Altered sleep architecture, rapid eye movement sleep, and neural oscillation in a mouse model of human chromosome 16p11.2 microdeletion. | Lu HC et al. | — | 2019 | → |
| Anatomical and physiological foundations of cerebello-hippocampal interaction. | Watson TC et al. | — | 2019 | → |
| A non-spatial account of place and grid cells based on clustering models of concept learning. | Mok RM et al. | — | 2019 | → |
| Arboreal route navigation in a Neotropical mammal: energetic implications associated with tree monitoring and landscape attributes. | de Guinea M et al. | — | 2019 | → |
| A rodent cage change insomnia model disrupts memory consolidation. | McKenna JT et al. | — | 2019 | → |
| Brainstem nucleus incertus controls contextual memory formation. | Szőnyi A et al. | — | 2019 | → |
| Building the Arrow of Time… Over Time: A Sequence of Brain Activity Mapping Imagined Events in Time and Space. | Gauthier B et al. | — | 2019 | → |
| Chrna2-OLM interneurons display different membrane properties and h-current magnitude depending on dorsoventral location. | Hilscher MM et al. | — | 2019 | → |
| Cingulum stimulation enhances positive affect and anxiolysis to facilitate awake craniotomy. | Bijanki KR et al. | — | 2019 | → |
| Cognitive training improves the disturbed behavioral architecture of schizophrenia-like rats, "Wisket". | Horvath G et al. | — | 2019 | → |
| Degeneracy in hippocampal physiology and plasticity. | Rathour RK et al. | — | 2019 | → |
| Desynchronizing to be faster? Perceptual- and attentional-modulation of brain rhythms at the sub-millisecond scale. | Noguchi Y et al. | — | 2019 | → |
| Distinct Patterns of Hippocampal and Neocortical Evolution in Primates. | Vanier DR et al. | — | 2019 | → |
| Dynamic Theta Networks in the Human Medial Temporal Lobe Support Episodic Memory. | Solomon EA et al. | — | 2019 | → |
| EEG microstates distinguish between cognitive components of fluid reasoning. | Zappasodi F et al. | — | 2019 | → |
| Emergence of Coordinated Activity in the Developing Entorhinal-Hippocampal Network. | Valeeva G et al. | — | 2019 | → |
| Emotion Regulation of Hippocampus Using Real-Time fMRI Neurofeedback in Healthy Human. | Zhu Y et al. | — | 2019 | → |
| Entorhinal transformations in abstract frames of reference. | Kaplan R et al. | — | 2019 | → |
| Environmental enrichment increases prefrontal EEG power and synchrony with the hippocampus in rats with anterior thalamus lesions. | Ulrich K et al. | — | 2019 | → |
| GABAergic mediation of hippocampal theta rhythm induced by stimulation of the vagal nerve. | Broncel A et al. | — | 2019 | → |
| High-frequency stimulation of afferent axons alters firing rhythms of downstream neurons. | Ma W et al. | — | 2019 | → |
| Hippocampal network oscillations at the interplay between innate anxiety and learned fear. | Çalışkan G et al. | — | 2019 | → |
| Hippocampal Sequences During Exploration: Mechanisms and Functions. | Drieu C et al. | — | 2019 | → |
| Hippocampal theta codes for distances in semantic and temporal spaces. | Solomon EA et al. | — | 2019 | → |
| Hippocampal theta phases organize the reactivation of large-scale electrophysiological representations during goal-directed navigation. | Kunz L et al. | — | 2019 | → |
| Human Replay Spontaneously Reorganizes Experience. | Liu Y et al. | — | 2019 | → |
| Is Losing One's Way a Sign of Cognitive Decay? Topographical Memory Deficit as an Early Marker of Pathological Aging. | Boccia M et al. | — | 2019 | → |
| <i>Xiao-Xu-Ming</i> decoction extract regulates differentially expressed proteins in the hippocampus after chronic cerebral hypoperfusion. | Wang YH et al. | — | 2019 | → |
| Links Between Physical Frailty and Regional Gray Matter Volumes in Older Adults: A Voxel-Based Morphometry Study. | Nishita Y et al. | — | 2019 | → |
| Localization and expression of CTP: Phosphocholine cytidylyltransferase in rat brain following cocaine exposure. | Pati S et al. | — | 2019 | → |
| Locating animals with respect to landmarks in space-time. | Gentry H et al. | — | 2019 | → |
| Looking into recent and remote past: Meta-analytic evidence for cortical re-organization of episodic autobiographical memories. | Boccia M et al. | — | 2019 | → |
| Mapping Structure-Function Relationships in the Brain. | Snyder AZ et al. | — | 2019 | → |
| Median raphe controls acquisition of negative experience in the mouse. | Szőnyi A et al. | — | 2019 | → |
| Memory retrieval modulates spatial tuning of single neurons in the human entorhinal cortex. | Qasim SE et al. | — | 2019 | → |
| Multichannel fiber photometry for mapping axonal terminal activity in a restricted brain region in freely moving mice. | Qin H et al. | — | 2019 | → |
| Multichannel Silicon Probes for Awake Hippocampal Recordings in Large Animals. | Ulyanova AV et al. | — | 2019 | → |
| Neurons and networks in the entorhinal cortex: A reappraisal of the lateral and medial entorhinal subdivisions mediating parallel cortical pathways. | Nilssen ES et al. | — | 2019 | → |
| Optogenetic Stimulation of the Basolateral Amygdala Increased Theta-Modulated Gamma Oscillations in the Hippocampus. | Ahlgrim NS et al. | — | 2019 | → |
| Origin and role of path integration in the cognitive representations of the hippocampus: computational insights into open questions. | Savelli F et al. | — | 2019 | → |
| Parallel pathways of seizure generalization. | Dabrowska N et al. | — | 2019 | → |
| Position-theta-phase model of hippocampal place cell activity applied to quantification of running speed modulation of firing rate. | McClain K et al. | — | 2019 | → |
| Processing of different spatial scales in the human brain. | Peer M et al. | — | 2019 | → |
| Reduced memory-related ongoing oscillatory activity in healthy older adults. | Winterling SL et al. | — | 2019 | → |
| Regulation of Memory Function by Feeding-Relevant Biological Systems: Following the Breadcrumbs to the Hippocampus. | Suarez AN et al. | — | 2019 | → |
| Regulation of negative emotional behavior. | Ikemoto S | — | 2019 | → |
| Rejuvenating the Brain With Chronic Exercise Through Adult Neurogenesis. | Trinchero MF et al. | — | 2019 | → |
| Self-Agency and Self-Ownership in Cognitive Mapping. | Arzy S et al. | — | 2019 | → |
| Short-term dynamics of input and output of CA1 network greatly differ between the dorsal and ventral rat hippocampus. | Koutsoumpa A et al. | — | 2019 | → |
| Space and Memory (Far) Beyond the Hippocampus: Many Subcortical Structures Also Support Cognitive Mapping and Mnemonic Processing. | O'Mara SM et al. | — | 2019 | → |
| Spatial encoding in primate hippocampus during free navigation. | Courellis HS et al. | — | 2019 | → |
| Sphingosine Kinase 2 Potentiates Amyloid Deposition but Protects against Hippocampal Volume Loss and Demyelination in a Mouse Model of Alzheimer's Disease. | Lei M et al. | — | 2019 | → |
| Stability of medial entorhinal cortex representations over time. | Diehl GW et al. | — | 2019 | → |
| Teleanalysis: Slippery Slope or Rich Opportunity? | Ehrlich LT | — | 2019 | → |
| The brain of the tree pangolin (Manis tricuspis). IV. The hippocampal formation. | Imam A et al. | — | 2019 | → |
| The effects of developmental alcohol exposure on the neurobiology of spatial processing. | Harvey RE et al. | — | 2019 | → |
| The Predictive Processing Model of EMDR. | Chamberlin DE | — | 2019 | → |
| The Theta Stone: 3 to 10 Hz Oscillations to Decipher the Human Brain Code. | de la Prida LM | — | 2019 | → |
| Three brain states in the hippocampus and cortex. | Kay K et al. | — | 2019 | → |
| Time Cells in the Hippocampus Are Neither Dependent on Medial Entorhinal Cortex Inputs nor Necessary for Spatial Working Memory. | Sabariego M et al. | — | 2019 | → |
| Topographical Disorientation: Clinical and Theoretical Significance of Long-Lasting Improvements Following Imagery-Based Training. | Boccia M et al. | — | 2019 | → |
| Unsupervised Detection of Cell-Assembly Sequences by Similarity-Based Clustering. | Watanabe K et al. | — | 2019 | → |
| Volumetric Ca<sup>2+</sup> Imaging in the Mouse Brain Using Hybrid Multiplexed Sculpted Light Microscopy. | Weisenburger S et al. | — | 2019 | → |
| Wandering thoughts about consciousness, the brain, and the commentary system of Larry Weiskrantz. | Berlucchi G | — | 2019 | → |
| White Matter Network Architecture Guides Direct Electrical Stimulation through Optimal State Transitions. | Stiso J et al. | — | 2019 | → |
| Activation of Sirtuin 1 Attenuates High Glucose-Induced Neuronal Apoptosis by Deacetylating p53. | Shi X et al. | — | 2018 | → |
| Adult Neurogenesis Conserves Hippocampal Memory Capacity. | Alam MJ et al. | — | 2018 | → |
| Alterations in hippocampal and cortical densities of functionally different interneurons in rat models of absence epilepsy. | Papp P et al. | — | 2018 | → |
| Alterations of Coherent Theta and Gamma Network Oscillations as an Early Biomarker of Temporal Lobe Epilepsy and Alzheimer's Disease. | Kitchigina VF | — | 2018 | → |
| Altered aspects of anxiety-related behavior in kisspeptin receptor-deleted male mice. | Delmas S et al. | — | 2018 | → |
| A new perspective of the hippocampus in the origin of exercise-brain interactions. | Rendeiro C et al. | — | 2018 | → |
| A Non-canonical Reticular-Limbic Central Auditory Pathway via Medial Septum Contributes to Fear Conditioning. | Zhang GW et al. | — | 2018 | → |
| Arc/Arg3.1 mediates a critical period for spatial learning and hippocampal networks. | Gao X et al. | — | 2018 | → |
| A Single High Dose of Methamphetamine Reduces Monoamines and Impairs Egocentric and Allocentric Learning and Memory in Adult Male Rats. | Gutierrez A et al. | — | 2018 | → |
| A time-stamp mechanism may provide temporal information necessary for egocentric to allocentric spatial transformations. | Wallach A et al. | — | 2018 | → |
| A Visual-Cue-Dependent Memory Circuit for Place Navigation. | Qin H et al. | — | 2018 | → |
| Basolateral Amygdala Inputs to the Medial Entorhinal Cortex Selectively Modulate the Consolidation of Spatial and Contextual Learning. | Wahlstrom KL et al. | — | 2018 | → |
| Boundaries Shape Cognitive Representations of Spaces and Events. | Brunec IK et al. | — | 2018 | → |
| CA1 pyramidal cell diversity enabling parallel information processing in the hippocampus. | Soltesz I et al. | — | 2018 | → |
| Cellular components and circuitry of the presubiculum and its functional role in the head direction system. | Simonnet J et al. | — | 2018 | → |
| Characterizing Speed Cells in the Rat Hippocampus. | Góis ZHTD et al. | — | 2018 | → |
| Chronic stress targets adult neurogenesis preferentially in the suprapyramidal blade of the rat dorsal dentate gyrus. | Alves ND et al. | — | 2018 | → |
| Cognitive representations of spatial location. | Jeffery KJ | — | 2018 | → |
| Control of Excitation/Inhibition Balance in a Hippocampal Circuit by Calcium Sensor Protein Regulation of Presynaptic Calcium Channels. | Nanou E et al. | — | 2018 | → |
| Coordinated prefrontal-hippocampal activity and navigation strategy-related prefrontal firing during spatial memory formation. | Negrón-Oyarzo I et al. | — | 2018 | → |
| Cortical travelling waves: mechanisms and computational principles. | Muller L et al. | — | 2018 | → |
| Degeneracy in the robust expression of spectral selectivity, subthreshold oscillations, and intrinsic excitability of entorhinal stellate cells. | Mittal D et al. | — | 2018 | → |
| Developmental manganese, lead, and barren cage exposure have adverse long-term neurocognitive, behavioral and monoamine effects in Sprague-Dawley rats. | Sprowles JLN et al. | — | 2018 | → |
| Differential Age-Related Changes in Structural Covariance Networks of Human Anterior and Posterior Hippocampus. | Li X et al. | — | 2018 | → |
| Diversity matters: combinatorial information coding by GABA<sub>A</sub> receptor subunits during spatial learning and its allosteric modulation. | Szodorai E et al. | — | 2018 | → |
| Dorsal hippocampus is necessary for visual categorization in rats. | Kim J et al. | — | 2018 | → |
| Dynamical Mechanism of Hyperpolarization-Activated Non-specific Cation Current Induced Resonance and Spike-Timing Precision in a Neuronal Model. | Zhao Z et al. | — | 2018 | → |
| Endogenously generated gamma-band oscillations in early visual cortex: A neurofeedback study. | Merkel N et al. | — | 2018 | → |
| Enhancing the Ecological Validity of fMRI Memory Research Using Virtual Reality. | Reggente N et al. | — | 2018 | → |
| Entorhinal cortex receptive fields are modulated by spatial attention, even without movement. | Wilming N et al. | — | 2018 | → |
| Environmental deformations dynamically shift the grid cell spatial metric. | Keinath AT et al. | — | 2018 | → |
| [High frequency stimulations change the phase-locking relationship between neuronal firing and the rhythms of field potentials]. | Ma W et al. | — | 2018 | → |
| Hippocampal Global Remapping Can Occur without Input from the Medial Entorhinal Cortex. | Schlesiger MI et al. | — | 2018 | → |
| Hippocampal network oscillations as mediators of behavioural metaplasticity: Insights from emotional learning. | Çalışkan G et al. | — | 2018 | → |
| Hippocampal Theta-Gamma Coupling Reflects State-Dependent Information Processing in Decision Making. | Amemiya S et al. | — | 2018 | → |
| Learned Spatial Schemas and Prospective Hippocampal Activity Support Navigation After One-Shot Learning. | van Kesteren MTR et al. | — | 2018 | → |
| Linking neuronal structure to function in rodent hippocampus: a methodological prospective. | Preston-Ferrer P et al. | — | 2018 | → |
| Long-Term Consolidation of Ensemble Neural Plasticity Patterns in Hippocampal Area CA1. | Attardo A et al. | — | 2018 | → |
| Loss of thin spines and small synapses contributes to defective hippocampal function in aged mice. | Xu B et al. | — | 2018 | → |
| Low-Dimensional and Monotonic Preparatory Activity in Mouse Anterior Lateral Motor Cortex. | Inagaki HK et al. | — | 2018 | → |
| Medial septal cholinergic mediation of hippocampal theta rhythm induced by vagal nerve stimulation. | Broncel A et al. | — | 2018 | → |
| Medial temporal lobe functional connectivity predicts stimulation-induced theta power. | Solomon EA et al. | — | 2018 | → |
| Memory Deficit in an Object Location Task after Mild Traumatic Brain Injury Is Associated with Impaired Early Object Exploration and Both Are Restored by Branched Chain Amino Acid Dietary Therapy. | Paterno R et al. | — | 2018 | → |
| Microglia Activation and Gene Expression Alteration of Neurotrophins in the Hippocampus Following Early-Life Exposure to E-Cigarette Aerosols in a Murine Model. | Zelikoff JT et al. | — | 2018 | → |
| Modeling the Effect of Environmental Geometries on Grid Cell Representations. | Jayakumar S et al. | — | 2018 | → |
| Moderate decline in select synaptic markers in the prefrontal cortex (BA9) of patients with Alzheimer's disease at various cognitive stages. | Poirel O et al. | — | 2018 | → |
| Move to learn: Integrating spatial information from multiple viewpoints. | Holmes CA et al. | — | 2018 | → |
| Multimodal cortical and hippocampal prediction of episodic-memory plasticity in young and older adults. | Bråthen ACS et al. | — | 2018 | → |
| Multiple Scales of Representation along the Hippocampal Anteroposterior Axis in Humans. | Brunec IK et al. | — | 2018 | → |
| Multisensory Control of Orientation in Tethered Flying Drosophila. | Currier TA et al. | — | 2018 | → |
| Navigating cognition: Spatial codes for human thinking. | Bellmund JLS et al. | — | 2018 | → |
| Negative effects of interictal spikes on theta rhythm in human temporal lobe epilepsy. | Fu X et al. | — | 2018 | → |
| Neurodevelopmental consequences of pediatric cancer and its treatment: applying an early adversity framework to understanding cognitive, behavioral, and emotional outcomes. | Marusak HA et al. | — | 2018 | → |
| Neuronal dynamics supporting formation and recombination of cross-modal olfactory-tactile association in the rat hippocampal formation. | Boisselier L et al. | — | 2018 | → |
| Non-invasive Investigation of Human Hippocampal Rhythms Using Magnetoencephalography: A Review. | Pu Y et al. | — | 2018 | → |
| Optogenetic entrainment of neural oscillations with hybrid fiber probes. | Kilias A et al. | — | 2018 | → |
| Parsing Hippocampal Theta Oscillations by Nested Spectral Components during Spatial Exploration and Memory-Guided Behavior. | Lopes-Dos-Santos V et al. | — | 2018 | → |
| Pharmacological Rescue of Hippocampal Fear Learning Deficits in Fragile X Syndrome. | Martinez LA et al. | — | 2018 | → |
| Phase-tuned neuronal firing encodes human contextual representations for navigational goals. | Watrous AJ et al. | — | 2018 | → |
| Planning and navigation as active inference. | Kaplan R et al. | — | 2018 | → |
| Postnatal Vitamin D Intake Modulates Hippocampal Learning and Memory in Adult Mice. | Liang Q et al. | — | 2018 | → |
| Remembering rewarding futures: A simulation-selection model of the hippocampus. | Jung MW et al. | — | 2018 | → |
| Resolving Memory Circuits with Layer-Dependent fMRI. | Goense J | — | 2018 | → |
| Restoring striatal WAVE-1 improves maze exploration performance of GluN1 knockdown mice. | Chen Y et al. | — | 2018 | → |
| Role of normal sleep and sleep apnea in human memory processing. | Ahuja S et al. | — | 2018 | → |
| Self-motion processing in visual and entorhinal cortices: inputs, integration, and implications for position coding. | Campbell MG et al. | — | 2018 | → |
| Septal cholinergic neurons gate hippocampal output to entorhinal cortex via oriens lacunosum moleculare interneurons. | Haam J et al. | — | 2018 | → |
| Sex differences in the brain: Implications for behavioral and biomedical research. | Choleris E et al. | — | 2018 | → |
| Single-unit Activity in the in vitro Entorhinal Cortex During Carbachol-induced Field Oscillations. | Chen LY et al. | — | 2018 | → |
| Space, time, and episodic memory: The hippocampus is all over the cognitive map. | Ekstrom AD et al. | — | 2018 | → |
| [Spatial orientation in the primate: I see, there I am]. | Wirth S et al. | — | 2018 | → |
| Spatial Representations in the Human Brain. | Herweg NA et al. | — | 2018 | → |
| Spatial representations of self and other in the hippocampus. | Danjo T et al. | — | 2018 | → |
| Spatial scaffold effects in event memory and imagination. | Robin J | — | 2018 | → |
| Spatio-temporal specialization of GABAergic septo-hippocampal neurons for rhythmic network activity. | Unal G et al. | — | 2018 | → |
| Temporal compression in episodic memory for real-life events. | Jeunehomme O et al. | — | 2018 | → |
| Temporal coupling of field potentials and action potentials in the neocortex. | Watson BO et al. | — | 2018 | → |
| Temporal Dissociation of Neocortical and Hippocampal Contributions to Mental Time Travel Using Intracranial Recordings in Humans. | Schurr R et al. | — | 2018 | → |
| The activity of thalamic nucleus reuniens is critical for memory retrieval, but not essential for the early phase of "off-line" consolidation. | Mei H et al. | — | 2018 | → |
| The Complex Nature of Hippocampal-Striatal Interactions in Spatial Navigation. | Goodroe SC et al. | — | 2018 | → |
| The critical role of phase difference in theta oscillation between bilateral parietal cortices for visuospatial working memory. | Tseng P et al. | — | 2018 | → |
| The Dynamic Basis of Respiratory Rhythm Generation: One Breath at a Time. | Ramirez JM et al. | — | 2018 | → |
| The dynamics of disordered dialogue: Prefrontal, hippocampal and thalamic miscommunication underlying working memory deficits in schizophrenia. | Kupferschmidt DA et al. | — | 2018 | → |
| The frequency architecture of brain and brain body oscillations: an analysis. | Klimesch W | — | 2018 | → |
| The hippocampal engram maps experience but not place. | Tanaka KZ et al. | — | 2018 | → |
| The hippocampal sharp wave-ripple in memory retrieval for immediate use and consolidation. | Joo HR et al. | — | 2018 | → |
| The Hippocampus: From Memory, to Map, to Memory Map. | Jeffery KJ | — | 2018 | → |
| The hippocampus in depth: a sublayer-specific perspective of entorhinal-hippocampal function. | Valero M et al. | — | 2018 | → |
| Theta frequency decreases throughout the hippocampal formation in a focal epilepsy model. | Kilias A et al. | — | 2018 | → |
| Topological Schemas of Memory Spaces. | Babichev A et al. | — | 2018 | → |
| Total saponins from the leaves of Panax notoginseng inhibit depression on mouse chronic unpredictable mild stress model by regulating circRNA expression. | Zhang H et al. | — | 2018 | → |
| What's in a context? Cautions, limitations, and potential paths forward. | Stark SM et al. | — | 2018 | → |
| Aberrant Network Activity in Schizophrenia. | Hunt MJ et al. | — | 2017 | → |
| Acetylcholine Facilitates a Depolarization-Induced Enhancement of Inhibition in Rat CA1 Pyramidal Neurons. | Domínguez S et al. | — | 2017 | → |
| A distinct entorhinal cortex to hippocampal CA1 direct circuit for olfactory associative learning. | Li Y et al. | — | 2017 | → |
| Amygdala-hippocampal dynamics during salient information processing. | Zheng J et al. | — | 2017 | → |
| Aspartame and the hippocampus: Revealing a bi-directional, dose/time-dependent behavioural and morphological shift in mice. | Onaolapo AY et al. | — | 2017 | → |
| Assembling the brain from deep within. | Donato F | — | 2017 | → |
| Assessment of Learning, Memory, and Attention in Developmental Neurotoxicology Regulatory Testing: Commentary on essentiality of cognitive assessment for protecting child health. | Vorhees CV | — | 2017 | → |
| Asymmetry of the temporal code for space by hippocampal place cells. | Souza BC et al. | — | 2017 | → |
| Automatic Detection of Highly Organized Theta Oscillations in the Murine EEG. | Müller R et al. | — | 2017 | → |
| Brain connectivity during encoding and retrieval of spatial information: individual differences in navigation skills. | Sharma G et al. | — | 2017 | → |
| CA1 pyramidal cells have diverse biophysical properties, affected by development, experience, and aging. | McKiernan EC et al. | — | 2017 | → |
| CA2 Pyramidal Neurons: Biophysically and Anatomically Predisposed Integrators of Cortical Sensory Information. | Oláh VJ et al. | — | 2017 | → |
| Cannabinoids disrupt memory encoding by functionally isolating hippocampal CA1 from CA3. | Sandler RA et al. | — | 2017 | → |
| Carbachol-induced network oscillations in an in vitro limbic system brain slice. | Lévesque M et al. | — | 2017 | → |
| Cell types for our sense of location: where we are and where we are going. | Hardcastle K et al. | — | 2017 | → |
| Changes in Neuronal Oscillations Accompany the Loss of Hippocampal LTP that Occurs in an Animal Model of Psychosis. | Kalweit AN et al. | — | 2017 | → |
| Common oscillatory mechanisms across multiple memory systems. | Headley DB et al. | — | 2017 | → |
| Differential Expression and Cell-Type Specificity of Perineuronal Nets in Hippocampus, Medial Entorhinal Cortex, and Visual Cortex Examined in the Rat and Mouse. | Lensjø KK et al. | — | 2017 | → |
| Distinct Functional Groups Emerge from the Intrinsic Properties of Molecularly Identified Entorhinal Interneurons and Principal Cells. | Ferrante M et al. | — | 2017 | → |
| Distinct gamma oscillations in the distal dendritic fields of the dentate gyrus and the CA1 area of mouse hippocampus. | Lasztóczi B et al. | — | 2017 | → |
| Evidence for an Evolutionarily Conserved Memory Coding Scheme in the Mammalian Hippocampus. | Thome A et al. | — | 2017 | → |
| Extracting Neural Oscillation Signatures of Laser-Induced Nociception in Pain-Related Regions in Rats. | Li X et al. | — | 2017 | → |
| Frequency-specific electrophysiologic correlates of resting state fMRI networks. | Hacker CD et al. | — | 2017 | → |
| From Engrams to Pathologies of the Brain. | Denny CA et al. | — | 2017 | → |
| From Structure to Behavior in Basolateral Amygdala-Hippocampus Circuits. | Yang Y et al. | — | 2017 | → |
| Grid and Nongrid Cells in Medial Entorhinal Cortex Represent Spatial Location and Environmental Features with Complementary Coding Schemes. | Diehl GW et al. | — | 2017 | → |
| Hippocampal function in rodents. | Zemla R et al. | — | 2017 | → |
| Hippocampus and Entorhinal Cortex Recruit Cholinergic and NMDA Receptors Separately to Generate Hippocampal Theta Oscillations. | Gu Z et al. | — | 2017 | → |
| Impact of Bounded Noise and Rewiring on the Formation and Instability of Spiral Waves in a Small-World Network of Hodgkin-Huxley Neurons. | Yao Y et al. | — | 2017 | → |
| Impact of bounded noise on the formation and instability of spiral wave in a 2D Lattice of neurons. | Yao Y et al. | — | 2017 | → |
| Impaired hippocampal place cell dynamics in a mouse model of the 22q11.2 deletion. | Zaremba JD et al. | — | 2017 | → |
| Inactivation of the Prelimbic Cortex Impairs the Context-Induced Reinstatement of Ethanol Seeking. | Palombo P et al. | — | 2017 | → |
| Integrating Spatial Working Memory and Remote Memory: Interactions between the Medial Prefrontal Cortex and Hippocampus. | Wirt RA et al. | — | 2017 | → |
| Internally generated hippocampal sequences as a vantage point to probe future-oriented cognition. | Pezzulo G et al. | — | 2017 | → |
| Knowing what from where: Hippocampal connectivity with temporoparietal cortex at rest is linked to individual differences in semantic and topographic memory. | Sormaz M et al. | — | 2017 | → |
| Learning and executing goal-directed choices by internally generated sequences in spiking neural circuits. | Palmer J et al. | — | 2017 | → |
| Lipo‑prostaglandin E1 modifies cognitive impairment in rats with vascular cognitive impairment by promoting angiogenesis via the VEGF/VEGFR pathway. | Liu B et al. | — | 2017 | → |
| Low-frequency hippocampal-cortical activity drives brain-wide resting-state functional MRI connectivity. | Chan RW et al. | — | 2017 | → |
| Mapping of a non-spatial dimension by the hippocampal-entorhinal circuit. | Aronov D et al. | — | 2017 | → |
| Mechanosensory-Based Phase Coding of Odor Identity in the Olfactory Bulb. | Iwata R et al. | — | 2017 | → |
| Medial temporal pathways for contextual learning: Network c-<i>fos</i> mapping in rats with or without perirhinal cortex lesions. | Kinnavane L et al. | — | 2017 | → |
| Mouse models of frontotemporal dementia: A comparison of phenotypes with clinical symptomatology. | Ahmed RM et al. | — | 2017 | → |
| Phase-amplitude coupled persistent theta and gamma oscillations in rat primary motor cortex in vitro. | Johnson NW et al. | — | 2017 | → |
| Phase precession: a neural code underlying episodic memory? | Jaramillo J et al. | — | 2017 | → |
| Probing forebrain to hindbrain circuit functions in Xenopus. | Kelley DB et al. | — | 2017 | → |
| Remodeling of brain lipidome in methamphetamine-sensitized mice. | Jiang L et al. | — | 2017 | → |
| Segregated Cell Populations Enable Distinct Parallel Encoding within the Radial Axis of the CA1 Pyramidal Layer. | Geiller T et al. | — | 2017 | → |
| Semi-Supervised Learning of Cartesian Factors: A Top-Down Model of the Entorhinal Hippocampal Complex. | Lőrincz A et al. | — | 2017 | → |
| Space and time in the brain. | Buzsáki G et al. | — | 2017 | → |
| Spatial representation in the hippocampal formation: a history. | Moser EI et al. | — | 2017 | → |
| Spatial Responses, Immediate Experience, and Memory in the Monkey Hippocampus. | Rueckemann JW et al. | — | 2017 | → |
| Suppression of Ventral Hippocampal Output Impairs Integrated Orbitofrontal Encoding of Task Structure. | Wikenheiser AM et al. | — | 2017 | → |
| Synaptic integrative mechanisms for spatial cognition. | Schmidt-Hieber C et al. | — | 2017 | → |
| Temporal and Rate Coding for Discrete Event Sequences in the Hippocampus. | Terada S et al. | — | 2017 | → |
| Temporal dynamics of object location processing in allocentric reference frame. | Török Á et al. | — | 2017 | → |
| The characterization of hippocampal theta-driving neurons - a time-delayed mutual information approach. | Li S et al. | — | 2017 | → |
| The claustrum: Considerations regarding its anatomy, functions and a programme for research. | Dillingham CM et al. | — | 2017 | → |
| The cognitive map in humans: spatial navigation and beyond. | Epstein RA et al. | — | 2017 | → |
| The Effects of Acute Exercise on Mood, Cognition, Neurophysiology, and Neurochemical Pathways: A Review. | Basso JC et al. | — | 2017 | → |
| The role of the hippocampus in navigation is memory. | Eichenbaum H | — | 2017 | → |
| The Roles of the Olivocerebellar Pathway in Motor Learning and Motor Control. A Consensus Paper. | Lang EJ et al. | — | 2017 | → |
| Theta and Alpha Oscillation Impairments in Autistic Spectrum Disorder Reflect Working Memory Deficit. | Larrain-Valenzuela J et al. | — | 2017 | → |
| Theta Oscillations in the Human Medial Temporal Lobe during Real-World Ambulatory Movement. | M Aghajan Z et al. | — | 2017 | → |
| Vagus nerve stimulation produces a hippocampal formation theta rhythm in anesthetized rats. | Broncel A et al. | — | 2017 | → |
| Viewpoints: how the hippocampus contributes to memory, navigation and cognition. | Lisman J et al. | — | 2017 | → |
| Visual Sampling Predicts Hippocampal Activity. | Liu ZX et al. | — | 2017 | → |
| What You See Is What You Remember: Visual Chunking by Temporal Integration Enhances Working Memory. | Akyürek EG et al. | — | 2017 | → |