| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Qiliang He, Thackery I Brow. Environmental Barriers Disrupt Grid-like Representations in Humans during Navigation. Current biology : CB. vol 29. issue 16. 2020-08-03. PMID:31378608. |
these results suggest that barriers may exert their influence on the cognitive map through organization of the metric representation of space provided by entorhinal neurons. |
2020-08-03 |
2023-08-13 |
human |
| Qiliang He, Thackery I Brow. Environmental Barriers Disrupt Grid-like Representations in Humans during Navigation. Current biology : CB. vol 29. issue 16. 2020-08-03. PMID:31378608. |
instead, a 4-fold modulation of the entorhinal signal was observed, consistent with a vectorized organization of spatial metrics predicted by rodent models of navigation [5]. |
2020-08-03 |
2023-08-13 |
human |
| Xiaojun Bao, Eva Gjorgieva, Laura K Shanahan, James D Howard, Thorsten Kahnt, Jay A Gottfrie. Grid-like Neural Representations Support Olfactory Navigation of a Two-Dimensional Odor Space. Neuron. vol 102. issue 5. 2020-03-23. PMID:31023509. |
during navigation, fmri responses in entorhinal cortex and ventromedial prefrontal cortex take the form of grid-like representations with hexagonal periodicity and entorhinal grid strength scaled with behavioral performance across subjects. |
2020-03-23 |
2023-08-13 |
human |
| David Howett, Andrea Castegnaro, Katarzyna Krzywicka, Johanna Hagman, Deepti Marchment, Richard Henson, Miguel Rio, John A King, Neil Burgess, Dennis Cha. Differentiation of mild cognitive impairment using an entorhinal cortex-based test of virtual reality navigation. Brain : a journal of neurology. vol 142. issue 6. 2020-03-12. PMID:31121601. |
differentiation of mild cognitive impairment using an entorhinal cortex-based test of virtual reality navigation. |
2020-03-12 |
2023-08-13 |
human |
| David Howett, Andrea Castegnaro, Katarzyna Krzywicka, Johanna Hagman, Deepti Marchment, Richard Henson, Miguel Rio, John A King, Neil Burgess, Dennis Cha. Differentiation of mild cognitive impairment using an entorhinal cortex-based test of virtual reality navigation. Brain : a journal of neurology. vol 142. issue 6. 2020-03-12. PMID:31121601. |
this study demonstrates that an entorhinal cortex-based virtual reality navigation task can differentiate patients with mild cognitive impairment at low and high risk of developing dementia, with classification accuracy superior to reference cognitive tests considered to be highly sensitive to early alzheimer's disease. |
2020-03-12 |
2023-08-13 |
human |
| Charlotte N Boccara, Michele Nardin, Federico Stella, Joseph O'Neill, Jozsef Csicsvar. The entorhinal cognitive map is attracted to goals. Science (New York, N.Y.). vol 363. issue 6434. 2019-08-29. PMID:30923221. |
the entorhinal cognitive map is attracted to goals. |
2019-08-29 |
2023-08-13 |
rat |
| Tim James Viney, Minas Salib, Abhilasha Joshi, Gunes Unal, Naomi Berry, Peter Somogy. Shared rhythmic subcortical GABAergic input to the entorhinal cortex and presubiculum. eLife. vol 7. 2019-07-22. PMID:29620525. |
spatial navigation and context-dependent episodic memories are represented in several interconnected regions including the hippocampal and entorhinal cortices, but the cellular mechanisms for their dynamic coupling remain to be defined. |
2019-07-22 |
2023-08-13 |
mouse |
| Matthias Nau, Tobias Navarro Schröder, Jacob L S Bellmund, Christian F Doelle. Hexadirectional coding of visual space in human entorhinal cortex. Nature neuroscience. vol 21. issue 2. 2019-05-16. PMID:29311746. |
entorhinal grid cells map the local environment, but their involvement beyond spatial navigation remains elusive. |
2019-05-16 |
2023-08-13 |
human |
| Malcolm G Campbell, Samuel A Ocko, Caitlin S Mallory, Isabel I C Low, Surya Ganguli, Lisa M Giocom. Principles governing the integration of landmark and self-motion cues in entorhinal cortical codes for navigation. Nature neuroscience. vol 21. issue 8. 2019-05-10. PMID:30038279. |
principles governing the integration of landmark and self-motion cues in entorhinal cortical codes for navigation. |
2019-05-10 |
2023-08-13 |
mouse |
| Russell A Epstein, Eva Zita Patai, Joshua B Julian, Hugo J Spier. The cognitive map in humans: spatial navigation and beyond. Nature neuroscience. vol 20. issue 11. 2019-05-09. PMID:29073650. |
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. |
2019-05-09 |
2023-08-13 |
human |
| Caitlin S Mallory, Lisa M Giocom. From entorhinal neural codes to navigation. Nature neuroscience. vol 21. issue 1. 2019-05-06. PMID:29269761. |
from entorhinal neural codes to navigation. |
2019-05-06 |
2023-08-13 |
Not clear |
| Shachar Maidenbaum, Jonathan Miller, Joel M Stein, Joshua Jacob. Grid-like hexadirectional modulation of human entorhinal theta oscillations. Proceedings of the National Academy of Sciences of the United States of America. vol 115. issue 42. 2018-12-14. PMID:30282738. |
we analyzed intracranial recordings from neurosurgical patients during virtual navigation to identify oscillatory characteristics of the human entorhinal grid network. |
2018-12-14 |
2023-08-13 |
human |
| Shachar Maidenbaum, Jonathan Miller, Joel M Stein, Joshua Jacob. Grid-like hexadirectional modulation of human entorhinal theta oscillations. Proceedings of the National Academy of Sciences of the United States of America. vol 115. issue 42. 2018-12-14. PMID:30282738. |
the power of entorhinal theta oscillations showed six-fold modulation according to the virtual heading during navigation, which is a hypothesized signature of grid representations. |
2018-12-14 |
2023-08-13 |
human |
| Zoltan Nadasdy, T Peter Nguyen, Ágoston Török, Jason Y Shen, Deborah E Briggs, Pradeep N Modur, Robert J Buchana. Context-dependent spatially periodic activity in the human entorhinal cortex. Proceedings of the National Academy of Sciences of the United States of America. vol 114. issue 17. 2018-04-23. PMID:28396399. |
patients diagnosed with nontractable epilepsy who were implanted with entorhinal cortical electrodes performing virtual navigation tasks to memorized locations enabled us to investigate associations between grid-like patterns and environment. |
2018-04-23 |
2023-08-13 |
human |
| S C Huntgeburth, J-K Chen, A Ptito, M Petride. Local morphology informs location of activation during navigation within the parahippocampal region of the human brain. Brain structure & function. vol 222. issue 4. 2018-03-05. PMID:27562779. |
the relationship between the local morphological features that define the entorhinal and parahippocampal cortex in the medial temporal region of the human brain and activation as measured during a navigation task with functional magnetic resonance imaging was examined individually in healthy participants. |
2018-03-05 |
2023-08-13 |
human |
| Jacob Ls Bellmund, Lorena Deuker, Tobias Navarro Schröder, Christian F Doelle. Grid-cell representations in mental simulation. eLife. vol 5. 2017-10-30. PMID:27572056. |
our findings imply a role of the entorhinal grid-system in mental simulation and future thinking beyond spatial navigation. |
2017-10-30 |
2023-08-13 |
human |
| Lisa M Giocom. Environmental boundaries as a mechanism for correcting and anchoring spatial maps. The Journal of physiology. vol 594. issue 22. 2017-08-30. PMID:26563618. |
despite variation in an animal's running speed and direction, medial entorhinal grid cells fire in repeating place-specific locations, pointing to the medial entorhinal circuit as a potential neural substrate for path integration-based spatial navigation. |
2017-08-30 |
2023-08-13 |
Not clear |
| Elizabeth Marozzi, Lin Lin Ginzberg, Andrea Alenda, Kate J Jeffer. Purely Translational Realignment in Grid Cell Firing Patterns Following Nonmetric Context Change. Cerebral cortex (New York, N.Y. : 1991). vol 25. issue 11. 2016-07-18. PMID:26048956. |
grid cells in entorhinal and parahippocampal cortices contribute to a network, centered on the hippocampal place cell system, that constructs a representation of spatial context for use in navigation and memory. |
2016-07-18 |
2023-08-13 |
Not clear |
| Stephen Grossber. From brain synapses to systems for learning and memory: Object recognition, spatial navigation, timed conditioning, and movement control. Brain research. vol 1621. 2016-05-23. PMID:25446436. |
similar synaptic learning laws support qualitatively different behaviors: invariant object category learning in the inferotemporal cortex; learning of grid cells and place cells in the entorhinal and hippocampal cortices during spatial navigation; and learning of time cells in the entorhinal-hippocampal system during adaptively timed conditioning, including trace conditioning. |
2016-05-23 |
2023-08-13 |
Not clear |
| Florian Raudies, Mark P Brandon, G William Chapman, Michael E Hasselm. Head direction is coded more strongly than movement direction in a population of entorhinal neurons. Brain research. vol 1621. 2016-05-23. PMID:25451111. |
the spatial firing pattern of entorhinal grid cells may be important for navigation. |
2016-05-23 |
2023-08-13 |
rat |