| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Olivier Dubanet, Michael J Higle. Retrosplenial inputs drive diverse visual representations in the medial entorhinal cortex. bioRxiv : the preprint server for biology. 2023-10-24. PMID:37873152. |
navigation is fundamentally dependent on the hippocampus and closely connected entorhinal cortex, whose neurons exhibit characteristic firing patterns corresponding to the animal's location. |
2023-10-24 |
2023-11-08 |
mouse |
| Andreas Sigstad Lande, Anna Christina Garvert, Nora Cecilie Ebbesen, Sondre Valentin Jordbræk, Koen Vervaek. Representations of tactile object location in the retrosplenial cortex. Current biology : CB. 2023-09-29. PMID:37774708. |
here, we hypothesized that the retrosplenial cortex (rsc), a key network for contextual memory and spatial navigation, represents the location of objects based on tactile sensation. |
2023-09-29 |
2023-10-07 |
mouse |
| Mohammad Daneshzand, Kaisu Lankinen, Jyrki Ahveninen, Qing Mei Wang, Jordan R Green, Teresa J Kimberley, Shasha L. Personalized 7T fMRI-Guided navigation TMS targeting: Preliminary data of speech-motor cortex in speech perception. Brain stimulation. 2023-09-29. PMID:37774914. |
personalized 7t fmri-guided navigation tms targeting: preliminary data of speech-motor cortex in speech perception. |
2023-09-29 |
2023-10-07 |
Not clear |
| Alana Brown, Ford Burles, Giuseppe Iaria, Gillian Einstein, Morris Moscovitc. Sex and menstrual cycle influence human spatial navigation strategies and performance. Scientific reports. vol 13. issue 1. 2023-09-11. PMID:37696837. |
these findings provide evidence that human spatial navigation varies with the menstrual cycle and suggest that sensitivity of the entorhinal cortex and longitudinal axis of the hippocampus to differential hormonal effects may account for this variation. |
2023-09-11 |
2023-10-07 |
human |
| Michele Gianatti, Anna Christina Garvert, Nora Lenkey, Nora Cecilie Ebbesen, Eivind Hennestad, Koen Vervaek. Multiple long-range projections convey position information to the agranular retrosplenial cortex. Cell reports. vol 42. issue 9. 2023-09-08. PMID:37682706. |
here, we asked which brain region sends position information to the retrosplenial cortex (rsc), a key circuit for memory and navigation. |
2023-09-08 |
2023-10-07 |
mouse |
| Mike Altounian, Anaïs Bellon, Fanny Man. Neuronal miR-17-5p contributes to interhemispheric cortical connectivity defects induced by prenatal alcohol exposure. Cell reports. vol 42. issue 9. 2023-08-23. PMID:37610874. |
pae induces aberrant navigation of interhemispheric cc axons that persists even after exposure ends, leading to ectopic termination in the contralateral cortex. |
2023-08-23 |
2023-09-07 |
mouse |
| Kathleen E Culle. Vestibular motor control. Handbook of clinical neurology. vol 195. 2023-08-10. PMID:37562876. |
furthermore, recent studies have advanced our understanding of the computations performed by the cerebellum and cortex required for motor learning, compensation, and voluntary movement and navigation. |
2023-08-10 |
2023-08-16 |
Not clear |
| Andrew Aoun, Oliver Shetler, S Abid Hussain. Beyond Correlation: Optimal Transport Metrics For Characterizing Representational Stability and Remapping in Neurons Encoding Spatial Memory. bioRxiv : the preprint server for biology. 2023-07-28. PMID:37503011. |
spatial representations in the entorhinal cortex (ec) and hippocampus (hpc) are fundamental to cognitive functions like navigation and memory. |
2023-07-28 |
2023-08-14 |
Not clear |
| Isabel I C Low, Lisa M Giocomo, Alex H William. Remapping in a recurrent neural network model of navigation and context inference. eLife. vol 12. 2023-07-06. PMID:37410093. |
we show that these combined task constraints (navigation and context inference) produce activity patterns that are qualitatively similar to population-wide remapping in the entorhinal cortex, a navigational brain region. |
2023-07-06 |
2023-08-14 |
Not clear |
| Cheng Wang, Heekyung Lee, Geeta Rao, Yoganarasimha Doreswamy, Francesco Savelli, James J Knieri. Superficial-layer versus deep-layer lateral entorhinal cortex: Coding of allocentric space, egocentric space, speed, boundaries, and corners. Hippocampus. 2023-03-25. PMID:36965194. |
entorhinal cortex is the major gateway between the neocortex and the hippocampus and thus plays an essential role in subserving episodic memory and spatial navigation. |
2023-03-25 |
2023-08-14 |
rat |
| Bente Jacobsen, Heidi Kleven, Wairimu Gatome, Liora Las, Nachum Ulanovsky, Menno P Witte. Organization of projections from the entorhinal cortex to the hippocampal formation of the Egyptian fruit bat Rousettus aegyptiacus. Hippocampus. 2023-03-04. PMID:36869437. |
the hippocampal formation and entorhinal cortex are crucially involved in learning and memory as well as in spatial navigation. |
2023-03-04 |
2023-08-14 |
Not clear |
| Morgan B Jude, Christine R Stran. Sex and season affect cortical volumes in free-living Western fence lizards, Sceloporus occidentalis. Brain, behavior and evolution. 2023-02-16. PMID:36796337. |
differences in spatial navigation in these lizards may involve aspects of spatial memory related to breeding other than territoriality that affect plasticity of the dorsal cortex. |
2023-02-16 |
2023-08-14 |
Not clear |
| Isabel I C Low, Lisa M Giocomo, Alex H William. Remapping in a recurrent neural network model of navigation and context inference. bioRxiv : the preprint server for biology. 2023-02-07. PMID:36747825. |
we show that these combined task constraints (navigation and context inference) produce activity patterns that are qualitatively similar to population-wide remapping in the entorhinal cortex, a navigational brain region. |
2023-02-07 |
2023-08-14 |
Not clear |
| Isabella C Wagner, Luise P Graichen, Boryana Todorova, Andre Lüttig, David B Omer, Matthias Stangl, Claus Lam. Entorhinal grid-like codes and time-locked network dynamics track others navigating through space. Nature communications. vol 14. issue 1. 2023-01-31. PMID:36720865. |
grid cells in the entorhinal cortex are a central component of self-related navigation but whether they also track others' movement is unclear. |
2023-01-31 |
2023-08-14 |
human |
| Taiping Zeng, Bailu Si, Xiaoli L. Entorhinal-hippocampal interactions lead to globally coherent representations of space. Current research in neurobiology. vol 3. 2023-01-23. PMID:36685760. |
we propose a navigation model containing a path integration system in the entorhinal cortex and a cognitive map system in the hippocampus. |
2023-01-23 |
2023-08-14 |
Not clear |
| Osman Akan, Anne Bierbrauer, Lukas Kunz, Patrick D Gajewski, Stephan Getzmann, Jan G Hengstler, Edmund Wascher, Nikolai Axmacher, Oliver T Wol. Chronic stress is associated with specific path integration deficits. Behavioural brain research. 2023-01-22. PMID:36682499. |
the entorhinal cortex is a brain region in the medial temporal lobe, which contains multiple cell types involved in spatial navigation (and episodic memory), and a high number of corticosteroid receptors, predisposing it as a potential target of cortisol effects. |
2023-01-22 |
2023-08-14 |
human |
| Nichole R Bouffard, Ali Golestani, Iva K Brunec, Buddhika Bellana, Jun Young Park, Morgan D Barense, Morris Moscovitc. Single voxel autocorrelation uncovers gradients of temporal dynamics in the hippocampus and entorhinal cortex during rest and navigation. Cerebral cortex (New York, N.Y. : 1991). 2022-12-27. PMID:36573396. |
single voxel autocorrelation uncovers gradients of temporal dynamics in the hippocampus and entorhinal cortex during rest and navigation. |
2022-12-27 |
2023-08-14 |
Not clear |
| Xiao Fu, Zhenglin Zhang, Yanfei Zhou, Qi Chen, Li-Zhuang Yang, Hai L. The Split-Half Reliability and Construct Validity of the Virtual Reality-Based Path Integration Task in the Healthy Population. Brain sciences. vol 12. issue 12. 2022-12-23. PMID:36552095. |
the present study investigates the relationship between task indicators and brain structures in a healthy population using a vr-based navigation task, particularly the entorhinal cortex (ec) and hippocampus. |
2022-12-23 |
2023-08-14 |
Not clear |
| Miriam H A Bopp, Felix Corr, Benjamin Saß, Mirza Pojskic, André Kemmling, Christopher Nimsk. Augmented Reality to Compensate for Navigation Inaccuracies. Sensors (Basel, Switzerland). vol 22. issue 24. 2022-12-23. PMID:36559961. |
in all cases, with detected misalignment, a successful spatial compensation was performed (mean correction: bone (6.27 ± 7.31 mm), vascular (3.00 ± 1.93 mm, 0.38° ± 1.06°), and cortex (5.31 ± 1.57 mm, 1.75° ± 2.47°)) increasing navigation accuracy. |
2022-12-23 |
2023-08-14 |
Not clear |
| Jose A Fernandez-Leon, Ahmet Kerim Uysal, Daoyun J. Place cells dynamically refine grid cell activities to reduce error accumulation during path integration in a continuous attractor model. Scientific reports. vol 12. issue 1. 2022-12-12. PMID:36509873. |
during spatial navigation, grid cells in the medial entorhinal cortex process speed and direction of the animal to map the environment. |
2022-12-12 |
2023-08-14 |
Not clear |