| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Kay Richards, Charles Watson, Rachel F Buckley, Nyoman D Kurniawan, Zhengyi Yang, Marianne D Keller, Richard Beare, Perry F Bartlett, Gary F Egan, Graham J Galloway, George Paxinos, Steven Petrou, David C Reuten. Segmentation of the mouse hippocampal formation in magnetic resonance images. NeuroImage. vol 58. issue 3. 2011-12-29. PMID:21704710. |
the hippocampal formation plays an important role in cognition, spatial navigation, learning, and memory. |
2011-12-29 |
2023-08-12 |
mouse |
| Katharina Hüfner, Michael Strupp, Paul Smith, Thomas Brandt, Klaus Jah. Spatial separation of visual and vestibular processing in the human hippocampal formation. Annals of the New York Academy of Sciences. vol 1233. 2011-11-30. PMID:21950991. |
the separation of vestibular and visual information in the hippocampal formation has a twofold functional consequence: missing input from either system may be partially substituted for, and the task-dependent sensorial weight can be shifted to, the more reliable modality for navigation. |
2011-11-30 |
2023-08-12 |
human |
| K Jahn, A Zwerga. [Functional imaging of locomotion and navigation. Physiology and neurodegeneration]. Der Nervenarzt. vol 81. issue 12. 2011-04-15. PMID:21088822. |
the hippocampal formation (on the right side) and its interaction with frontal and parietal cortex are essential for spatial navigation. |
2011-04-15 |
2023-08-12 |
Not clear |
| John P Aggleto. Understanding retrosplenial amnesia: insights from animal studies. Neuropsychologia. vol 48. issue 8. 2010-10-13. PMID:19800900. |
consistent with these connections is the finding from lesion studies in animals that the retrosplenial cortex is necessary for navigation and spatial learning, and that these functions occur in close conjunction with the hippocampal formation and anterior thalamus. |
2010-10-13 |
2023-08-12 |
Not clear |
| Mark D Humphries, Tony J Prescot. The ventral basal ganglia, a selection mechanism at the crossroads of space, strategy, and reward. Progress in neurobiology. vol 90. issue 4. 2010-06-14. PMID:19941931. |
the 'ventral domain' appears to be critical for learning flexible behaviours for exploration and foraging, as it is the recipient of converging inputs from amygdala, hippocampal formation and prefrontal cortex, putatively centres for stimulus evaluation, spatial navigation, and planning/contingency, respectively. |
2010-06-14 |
2023-08-12 |
Not clear |
| András Lorincz, Gábor Szirte. Here and now: how time segments may become events in the hippocampus. Neural networks : the official journal of the International Neural Network Society. vol 22. issue 5-6. 2009-11-02. PMID:19616410. |
we shortly discuss how our model corresponds to different theories on the role of the hippocampal formation in forming episodic memories or supporting spatial navigation. |
2009-11-02 |
2023-08-12 |
Not clear |
| Fernando Torrealba, José Luis Valdé. The parietal association cortex of the rat. Biological research. vol 41. issue 4. 2009-10-08. PMID:19621117. |
in this review we will discuss the role of the posterior parietal/anteromedial cortex of rodents, also known as the parietal association cortex, and the hippocampal formation in spatial navigation. |
2009-10-08 |
2023-08-12 |
rat |
| Klaus Jahn, Judith Wagner, Angela Deutschländer, Roger Kalla, Katharina Hüfner, Thomas Stephan, Michael Strupp, Thomas Brand. Human hippocampal activation during stance and locomotion: fMRI study on healthy, blind, and vestibular-loss subjects. Annals of the New York Academy of Sciences. vol 1164. 2009-08-18. PMID:19645904. |
the hippocampal formation, including the parahippocampal gyrus, is known to be involved in different aspects of navigation and spatial orientation. |
2009-08-18 |
2023-08-12 |
human |
| Santiago Canals, Michael Beyerlein, Hellmut Merkle, Nikos K Logotheti. Functional MRI evidence for LTP-induced neural network reorganization. Current biology : CB. vol 19. issue 5. 2009-06-16. PMID:19230667. |
the hippocampal formation is a region of the forebrain that is important for memory and spatial navigation. |
2009-06-16 |
2023-08-12 |
Not clear |
| Jerome L Rekart, C Jimena Sandoval, Aryeh Routtenber. Learning-induced axonal remodeling: evolutionary divergence and conservation of two components of the mossy fiber system within Rodentia. Neurobiology of learning and memory. vol 87. issue 2. 2007-03-21. PMID:17056284. |
damage to the hippocampal formation results in profound impairments in spatial navigation in rats and mice leading to the widely accepted assumption that the hippocampal cellular and molecular memory mechanisms of both genera are conserved. |
2007-03-21 |
2023-08-12 |
mouse |
| Etsuro Hori, Yoichi Nishio, Kenichi Kazui, Katsumi Umeno, Eiichi Tabuchi, Kazuo Sasaki, Shunro Endo, Taketoshi Ono, Hisao Nishij. Place-related neural responses in the monkey hippocampal formation in a virtual space. Hippocampus. vol 15. issue 8. 2006-01-12. PMID:16108028. |
place cells in the rodent hippocampal formation (hf) are suggested to be the neural substrate for a spatial cognitive map. |
2006-01-12 |
2023-08-12 |
human |
| Juan Pedro Vargas, Edward J Petruso, Verner P Bingma. Hippocampal formation is required for geometric navigation in pigeons. The European journal of neuroscience. vol 20. issue 7. 2004-12-22. PMID:15380016. |
hippocampal formation is required for geometric navigation in pigeons. |
2004-12-22 |
2023-08-12 |
Not clear |
| Anna Gagliardo, Paolo Ioalè, Francesca Odetti, Meghan C Kahn, Verner P Bingma. Hippocampal lesions do not disrupt navigational map retention in homing pigeons under conditions when map acquisition is hippocampal dependent. Behavioural brain research. vol 153. issue 1. 2004-09-27. PMID:15219704. |
in contrast to map-like navigation by familiar landmarks, understanding the relationship between the avian hippocampal formation (hf) and the homing pigeon navigational map has remained a challenge. |
2004-09-27 |
2023-08-12 |
pigeon |
| John W Philbeck, Marlene Behrmann, Lucien Levy, Samuel J Potolicchio, Anthony J Caput. Path integration deficits during linear locomotion after human medial temporal lobectomy. Journal of cognitive neuroscience. vol 16. issue 4. 2004-07-13. PMID:15165344. |
animal navigation studies have implicated structures in and around the hippocampal formation as crucial in performing path integration (a method of determining one's position by monitoring internally generated self-motion signals). |
2004-07-13 |
2023-08-12 |
human |
| Lucia F Jacob. The evolution of the cognitive map. Brain, behavior and evolution. vol 62. issue 2. 2003-09-23. PMID:12937351. |
its mediation by the hippocampal formation and its presence in birds and mammals suggests that at least one function of the ancestral medial pallium was spatial navigation. |
2003-09-23 |
2023-08-12 |
Not clear |
| Randal A Koene, Anatoli Gorchetchnikov, Robert C Cannon, Michael E Hasselm. Modeling goal-directed spatial navigation in the rat based on physiological data from the hippocampal formation. Neural networks : the official journal of the International Neural Network Society. vol 16. issue 5-6. 2003-09-16. PMID:12850010. |
modeling goal-directed spatial navigation in the rat based on physiological data from the hippocampal formation. |
2003-09-16 |
2023-08-12 |
rat |
| Etsuro Hori, Eiichi Tabuchi, Nobuhisa Matsumura, Ryoi Tamura, Satoshi Eifuku, Shunro Endo, Hisao Nishijo, Taketoshi On. Representation of place by monkey hippocampal neurons in real and virtual translocation. Hippocampus. vol 13. issue 2. 2003-05-21. PMID:12699327. |
the hippocampal formation (hf) is hypothesized as a neuronal substrate of a cognitive map, which represents environmental spatial information by an ensemble of neural activity. |
2003-05-21 |
2023-08-12 |
monkey |
| Patrick D Martin, Alain Bertho. Development of spatial firing in the hippocampus of young rats. Hippocampus. vol 12. issue 4. 2003-03-05. PMID:12201631. |
previous work has shown that the rat hippocampal formation undergoes anatomical and neurophysiological maturation during the first 2 months of life and that rats <40 days of age are impaired in spatial navigation tasks. |
2003-03-05 |
2023-08-12 |
rat |
| Scott D Oddie, Ian J Kirk, Boguslaw P Gorny, Ian Q Whishaw, Brian H Blan. Impaired dodging in food-conflict following fimbria-fornix transection in rats: a novel hippocampal formation deficit. Brain research bulletin. vol 57. issue 5. 2002-05-23. PMID:11927357. |
it is well known that damage to the hippocampal formation (ammon's horn, dentate gyrus, fimbria-fornix, and other pathways) produces impairments in spatial navigation and in certain forms of learning. |
2002-05-23 |
2023-08-12 |
rat |
| J P de Bruin, M P Moita, H M de Brabander, R N Jooste. Place and response learning of rats in a Morris water maze: differential effects of fimbria fornix and medial prefrontal cortex lesions. Neurobiology of learning and memory. vol 75. issue 2. 2001-06-14. PMID:11222058. |
the question examined in this study is concerned with a possible functional dissociation between the hippocampal formation and the prefrontal cortex in spatial navigation. |
2001-06-14 |
2023-08-12 |
rat |