Pascal and Francis Bibliographic Databases

Help

Search results

Your search

kw.\*:(%22CORTEX PERIRHINAL%22)

Filter

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Document Type [dt]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Publication Year[py]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Discipline (document) [di]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Language

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Author Country

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Origin

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Results 1 to 25 of 4494

  • Page / 180
Export

Selection :

  • and

ASSOCIATION PROJECTIONS FROM THE SECONDARY SOMATOSENSORY CORTEX IN THE CATYAMAGUCHI K; MASSOPUST LC; YOUNG PA et al.1982; ACTA ANAT.; ISSN 0001-5180; CHE; DA. 1982; VOL. 112; NO 4; PP. 297-309; BIBL. 2 P.Article

SOME CONNECTIONS OF THE ENTORHINAL (AREA 28) AND PERIRHINAL (AREA 35) CORTICES OF THE RHESUS MONKEY. III. EFFERENT CONNECTIONS. = QUELQUES CONNEXIONS DU CORTEX ENTORHINAL (AIRE 28) ET PERIRHINAL (AIRE 35) DU SINGE RHESUS. III. CONNEXIONS EFFERENTSVAN HOESEN GW; PANDYA DN.1975; BRAIN RES.; NETHERL.; DA. 1975; VOL. 95; NO 1; PP. 39-59; BIBL. 1 P.Article

SOME CONNECTIONS OF THE ENTORHINAL (AREA 28) AND PERIRHINAL (AREA 35) CORTICES OF THE RHESUS MONKEY. I. TEMPORAL LOBE AFFERENTS. = QUELQUES CONNEXIONS DES ORTEX ENTORHINAL (AIRE 28) ET PERIRHINAL (AIRE 35) DE SINGE RHESUS. I. AFFERENTS DU LOBE TEMPORALVAN HOESEN GW; PANDYA DN.1975; BRAIN RES.; NETHERL.; DA. 1975; VOL. 95; NO 1; PP. 1-24; BIBL. 1 P. 1/2Article

SOME CONNECTIONS OF THE ENTORHINAL (AREA 28) AND PERIRHINAL (AREA 35) CORTICES OF THE RHESUS MONKEY. II. FRONTAL LOBE AFFERENTS. = QUELQUES CONNEXIONS DES CORTEX ENTORHINAL (AIRE 28) ET PERIRHINAL (AIRE 35) DU SINGE RHESUS. II. AFFERENTS DU LOBE FRONTALVAN HOESEN GW; PANDYA DN; BUTTERS N et al.1975; BRAIN RES.; NETHERL.; DA. 1975; VOL. 95; NO 1; PP. 25-38; BIBL. 1 P.Article

HETEROTOPIC INTERHEMISPHERIC CORTICAL CONNECTIONS IN THE RATMARKOWITSCH HJ; GULDIN WO.1983; BRAIN RESEARCH BULLETIN; ISSN 0361-9230; USA; DA. 1983; VOL. 10; NO 6; PP. 805-810; BIBL. 22 REF.Article

β-ADRENOCEPTORS AND SYNAPTIC PLASTICITY IN THE PERIRHINAL CORTEXLAING, M; BASHIR, Z. I.Neuroscience. 2014, Vol 273, pp 163-173, issn 0306-4522, 11 p.Article

Resources required for processing ambiguous complex features in vision and audition are modality specificBARENSE, Morgan D; EREZ, Jonathan; MA, Henry et al.Cognitive, affective & behavioral neuroscience (Print). 2014, Vol 14, Num 1, pp 336-353, issn 1530-7026, 18 p.Article

The Hippocampus: Part of an Interactive Posterior Representational System Spanning Perceptual and Memorial SystemsNADEL, Lynn; PETERSON, Mary A.Journal of experimental psychology. General. 2013, Vol 142, Num 4, pp 1242-1254, issn 0096-3445, 13 p.Article

Evidence That the Rat Hippocampus Has Contrasting Roles in Object Recognition Memory and Object Recency MemoryALBASSER, Mathieu M; AMIN, Eman; LIN, Tzu-Ching E et al.Behavioral neuroscience. 2012, Vol 126, Num 5, pp 659-669, issn 0735-7044, 11 p.Article

Initiation of electrographic seizures by neuronal networks in entorhinal and perirhinal cortices in vitroDE GUZMAN, P; D'ANTUONO, M; AVOLI, M et al.Neuroscience. 2004, Vol 123, Num 4, pp 875-886, issn 0306-4522, 12 p.Article

PHYSICAL EXERCISE DURING PREGNANCY IMPROVES OBJECT RECOGNITION MEMORY IN ADULT OFFSPRINGROBINSON, A. M; BUCCI, D. J.Neuroscience. 2014, Vol 256, pp 53-60, issn 0306-4522, 8 p.Article

RETRIEVAL AND RECONSOLIDATION OF OBJECT RECOGNITION MEMORY ARE INDEPENDENT PROCESSES IN THE PERIRHINAL CORTEXBALDERAS, I; RODRIGUEZ-ORTIZ, C. J; BERMUDEZ-RATTONI, F et al.Neuroscience. 2013, Vol 253, pp 398-405, issn 0306-4522, 8 p.Article

Magnitude of the Object Recognition Deficit Associated With Perirhinal Cortex Damage in Rats: Effects of Varying the Lesion Extent and the Duration of the Sample PeriodALBASSER, M. M; DAVIES, M; FUTTER, J. E et al.Behavioral neuroscience. 2009, Vol 123, Num 1, pp 115-124, issn 0735-7044, 10 p.Article

Perirhinal cortex resolves feature ambiguity in configural object recognition and perceptual oddity tasksBARTKO, Susan J; WINTERS, Boyer D; COWELL, Rosemary A et al.Learning & memory (Cold Spring Harbor, N.Y.). 2007, Vol 14, Num 7-12, pp 821-832, issn 1072-0502, 12 p.Article

Distinct roles of the hippocampus and perirhinal cortex in GABAA receptor blockade-induced enhancement of object recognition memoryJONG MIN KIM; DONG HYUN KIM; YOUNGHWAN LEE et al.Brain research. 2014, Vol 1552, pp 17-25, issn 0006-8993, 9 p.Article

Familiarity-Based Stimulus Generalization of Conditioned Suppression in Rats Is Dependent on the Perirhinal CortexROBINSON, Jasper; WHITT, Emma J; HORSLEY, Rachel R et al.Behavioral neuroscience. 2010, Vol 124, Num 5, pp 587-599, issn 0735-7044, 13 p.Article

Functional difference between rat perirhinal cortex and hippocampus in object and place discrimination tasksABE, Hiroshi; ISHIDA, Yasushi; NONAKA, Hiroi et al.Behavioural brain research. 2009, Vol 197, Num 2, pp 388-397, issn 0166-4328, 10 p.Article

Perirhinal cortex lesions delay ejaculation in ratsSHARMA, Kartavya; GULIA, Kamalesh K; VELAYUDHAN MOHAN KUMAR et al.Behavioural brain research. 2008, Vol 189, Num 1, pp 212-215, issn 0166-4328, 4 p.Article

Muscarinic receptors activity in the perirhinal cortex and hippocampus has differential involvement in the formation of recognition memoryBALDERAS, Israela; MORIN, Jean-Pascal; RODRIGUEZ-ORTIZ, Carlos J et al.Neurobiology of learning and memory (Print). 2012, Vol 97, Num 4, pp 418-424, issn 1074-7427, 7 p.Article

Zinc transporter ZnT3 is involved in memory dependent on the hippocampus and perirhinal cortexMARTEL, Guillaume; HEVI, Charles; KANE-GOLDSMITH, Noriko et al.Behavioural brain research. 2011, Vol 223, Num 1, pp 233-238, issn 0166-4328, 6 p.Article

Conditioned effects of kindling three different sites in the hippocampal complex of the ratBARNES, Steven J; HUA, Josephine M; PINEL, John P. J et al.Behavioral neuroscience. 2005, Vol 119, Num 6, pp 1572-1579, issn 0735-7044, 8 p.Article

Environmental novelty is associated with a selective increase in Fos expression in the output elements of the hippocampal formation and the perirhinal cortexVANELZAKKER, Michael; FEVURLY, Rebecca D; BREINDEL, Tressa et al.Learning & memory (Cold Spring Harbor, N.Y.). 2008, Vol 15, Num 7-12, pp 899-908, issn 1072-0502, 10 p.Article

Resting-state fMRI reveals functional connectivity between face-selective perirhinal cortex and the fusiform face area related to face inversionO'NEIL, Edward B; MATTHEW HUTCHISON, R; MCLEAN, D. Adam et al.NeuroImage (Orlando, Fla.). 2014, Vol 92, pp 349-355, issn 1053-8119, 7 p.Article

PHYSICAL EXERCISE DURING ADOLESCENCE VERSUS ADULTHOOD: DIFFERENTIAL EFFECTS ON OBJECT RECOGNITION MEMORY AND BRAIN-DERIVED NEUROTROPHIC FACTOR LEVELSHOPKINS, M. E; NITECKI, R; BUCCI, D. J et al.Neuroscience. 2011, Vol 194, pp 84-94, issn 0306-4522, 11 p.Article

Pattern Separation Deficits May Contribute to Age-Associated Recognition ImpairmentsBURKE, Sara N; WALLACE, Jenelle L; NEMATOLLAHI, Saman et al.Behavioral neuroscience. 2010, Vol 124, Num 5, pp 559-573, issn 0735-7044, 15 p.Article

  • Page / 180