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Étienne Save, Ph.D.

Affiliations: 
Laboratory of Cognitive Neurosciences 
Area:
Spatial Cognition, Electrophysiology
Website:
http://sites.univ-provence.fr/lnc/spip.php?rubrique38&lang=en
Google:
"Étienne Save"
Mean distance: 14.65 (cluster 19)
 
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Publications

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Poitreau J, Buttet M, Manrique C, et al. (2021) Navigation using global or local reference frames in rats with medial and lateral entorhinal cortex lesions. Behavioural Brain Research. 413: 113448
Jacob PY, Van Cauter T, Poucet B, et al. (2020) Medial entorhinal cortex lesions induce degradation of CA1 place cell firing stability when self-motion information is used. Brain and Neuroscience Advances. 4: 2398212820953004
Banquet JP, Gaussier P, Cuperlier N, et al. (2020) Time as the fourth dimension in the hippocampus. Progress in Neurobiology. 101920
Jacob PY, Capitano F, Poucet B, et al. (2019) Path integration maintains spatial periodicity of grid cell firing in a 1D circular track. Nature Communications. 10: 840
Gaussier P, Banquet JP, Cuperlier N, et al. (2019) Merging information in the entorhinal cortex: what can we learn from robotics experiments and modeling? The Journal of Experimental Biology. 222
Duvelle É, Grieves RM, Hok V, et al. (2019) Insensitivity of place cells to the value of spatial goals in a two-choice flexible navigation task. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience
Save E, Sargolini F. (2017) Disentangling the Role of the MEC and LEC in the Processing of Spatial and Non-Spatial Information: Contribution of Lesion Studies. Frontiers in Systems Neuroscience. 11: 81
Jacob PY, Gordillo-Salas M, Facchini J, et al. (2017) Medial entorhinal cortex and medial septum contribute to self-motion-based linear distance estimation. Brain Structure & Function
Rodo C, Sargolini F, Save E. (2016) Processing of spatial and non-spatial information in rats with lesions of the medial and lateral entorhinal cortex: environmental complexity matters. Behavioural Brain Research
Hébert M, Anfray A, Chevilley A, et al. (2016) Distant Space Processing is Controlled by tPA-dependent NMDA Receptor Signaling in the Entorhinal Cortex. Cerebral Cortex (New York, N.Y. : 1991)
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