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Monkey perirhinal cortex is critical for visual memory, but not for visual perception: Reexamination of the behavioural evidence from monkeys

Pages 283-299 | Published online: 13 Oct 2011

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Ingrid R. Olson, Youssef Ezzyat, Alan Plotzker & Anjan Chatterjee. (2015) The end point of the ventral visual stream: face and non-face perceptual deficits following unilateral anterior temporal lobe damage. Neurocase 21:5, pages 554-562.
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Elisabeth A. Murray, Kim S. Graham & David Gaffan. (2005) Perirhinal cortex and its neighbours in the medial temporal lobe: Contributions to memory and perception. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 378-396.
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Kim S. Graham & David Gaffan. (2005) The role of the medial temporal lobe in memory and perception: Evidence from rats, nonhuman primates and humans. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 193-201.
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Peter Bright, Helen E. Moss, Emmanuel A. Stamatakis & Lorraine K. Tyler. (2005) The anatomy of object processing: The role of anteromedial temporal cortex. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 361-377.
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Timothy J. Bussey, Lisa M. Saksida & Elisabeth A. Murray. (2005) The perceptual-mnemonic/feature conjunction model of perirhinal cortex function. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 269-282.
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M. J. Eacott & E. A. Gaffan. (2005) The roles of perirhinal cortex, postrhinal cortex, and the fornix in memory for objects, contexts, and events in the rat. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 202-217.
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Mark J. Buckley. (2005) The role of the perirhinal cortex and hippocampus in learning, memory, and perception. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 246-268.
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J. S. Holdstock. (2005) The role of the human medial temporal lobe in object recognition and object discrimination. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 326-339.
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Andy C. H. Lee, Morgan D. Barense & Kim S. Graham. (2005) The contribution of the human medial temporal lobe to perception: Bridging the gap between animal and human studies. The Quarterly Journal of Experimental Psychology Section B 58:3-4, pages 300-325.
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Articles from other publishers (38)

Jin-Hui WangJin-Hui Wang. 2019. Associative Memory Cells: Basic Units of Memory Trace. Associative Memory Cells: Basic Units of Memory Trace 229 255 .
Jin-Hui WangJin-Hui Wang. 2019. Associative Memory Cells: Basic Units of Memory Trace. Associative Memory Cells: Basic Units of Memory Trace 37 77 .
Mark AG Eldridge, Narihisa Matsumoto, John H WittigJnrJnr, Evan C Masseau, Richard C Saunders & Barry J Richmond. (2018) Perceptual processing in the ventral visual stream requires area TE but not rhinal cortex. eLife 7.
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Alison R. Weiss, Wendi Guo, Rebecca Richardson & Jocelyne Bachevalier. (2017) Intact perceptual ability, but impaired familiarity judgment, after neonatal perirhinal lesions in rhesus macaques. Developmental Cognitive Neuroscience 28, pages 54-64.
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Malcolm W. Brown, Mark A. Eldridge & Paul J. Banks. 2017. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 189 207 .
Robert K. Lech, Benno Koch, Michael Schwarz & Boris Suchan. (2016) Fornix and medial temporal lobe lesions lead to comparable deficits in complex visual perception. Neuroscience Letters 620, pages 27-32.
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Sen Cheng & Markus Werning. (2015) What is episodic memory if it is a natural kind?. Synthese 193:5, pages 1345-1385.
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Jena B. Hales, Nicola J. Broadbent, Priya D. Velu, Larry R. Squire & Robert E. Clark. (2015) Hippocampus, perirhinal cortex, and complex visual discriminations in rats and humans. Learning & Memory 22:2, pages 83-91.
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Wei Kong, Xiaoyang Mou, Na Zhang, Weiming Zeng, Shasha Li & Yang Yang. (2015) The Construction of Common and Specific Significance Subnetworks of Alzheimer’s Disease from Multiple Brain Regions. BioMed Research International 2015, pages 1-13.
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J. M. J. Ramos. (2013) Essential Role of the Perirhinal Cortex in Complex Tactual Discrimination Tasks in Rats. Cerebral Cortex 24:8, pages 2068-2080.
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Wendy A. SuzukiYuji Naya. (2014) The Perirhinal Cortex. Annual Review of Neuroscience 37:1, pages 39-53.
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Robert K. Lech & Boris Suchan. (2014) Involvement of the human medial temporal lobe in a visual discrimination task. Behavioural Brain Research 268, pages 22-30.
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Ashley R. Knutson, Ramona O. Hopkins & Larry R. Squire. (2013) A pencil rescues impaired performance on a visual discrimination task in patients with medial temporal lobe lesions. Learning & Memory 20:11, pages 607-610.
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Jean C. Augustinack, Kristen E. Huber, Allison A. Stevens, Michelle Roy, Matthew P. Frosch, André J.W. van der Kouwe, Lawrence L. Wald, Koen Van Leemput, Ann C. McKee & Bruce Fischl. (2013) Predicting the location of human perirhinal cortex, Brodmann's area 35, from MRI. NeuroImage 64, pages 32-42.
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Ashley R. KnutsonRamona O. Hopkins & Larry R. Squire. (2012) Visual discrimination performance, memory, and medial temporal lobe function. Proceedings of the National Academy of Sciences 109:32, pages 13106-13111.
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Annette Jeneson & Larry R. Squire. (2011) Working memory, long-term memory, and medial temporal lobe function. Learning & Memory 19:1, pages 15-25.
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Robert E. Clark, Pamela Reinagel, Nicola J. Broadbent, Erik D. Flister & Larry R. Squire. (2011) Intact Performance on Feature-Ambiguous Discriminations in Rats with Lesions of the Perirhinal Cortex. Neuron 70:1, pages 132-140.
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Soyun Kim, Annette Jeneson, Anna S. van der Horst, Jennifer C. Frascino, Ramona O. Hopkins & Larry R. Squire. (2011) Memory, Visual Discrimination Performance, and the Human Hippocampus. The Journal of Neuroscience 31:7, pages 2624-2629.
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Rosemary A. Cowell, Timothy J. Bussey & Lisa M. Saksida. 2011. Computational Neuroscience for Advancing Artificial Intelligence. Computational Neuroscience for Advancing Artificial Intelligence 15 45 .
Rosemary A. Cowell, Timothy J. Bussey & Lisa M. Saksida. (2010) Functional Dissociations within the Ventral Object Processing Pathway: Cognitive Modules or a Hierarchical Continuum?. Journal of Cognitive Neuroscience 22:11, pages 2460-2479.
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Lisa M. Saksida & Timothy J. Bussey. (2010) The representational–hierarchical view of amnesia: Translation from animal to human. Neuropsychologia 48:8, pages 2370-2384.
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Kim S. Graham, Morgan D. Barense & Andy C.H. Lee. (2010) Going beyond LTM in the MTL: A synthesis of neuropsychological and neuroimaging findings on the role of the medial temporal lobe in memory and perception. Neuropsychologia 48:4, pages 831-853.
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J. S. Holdstock, J. Hocking, P. Notley, J. T. Devlin & C. J. Price. (2009) Integrating Visual and Tactile Information in the Perirhinal Cortex. Cerebral Cortex 19:12, pages 2993-3000.
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Wendy A. Suzuki. (2009) Perception and the Medial Temporal Lobe: Evaluating the Current Evidence. Neuron 61:5, pages 657-666.
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Mark G. Baxter. (2009) Involvement of Medial Temporal Lobe Structures in Memory and Perception. Neuron 61:5, pages 667-677.
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Boyer D. Winters, Lisa M. Saksida & Timothy J. Bussey. (2008) Object recognition memory: Neurobiological mechanisms of encoding, consolidation and retrieval. Neuroscience & Biobehavioral Reviews 32:5, pages 1055-1070.
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M.W. Brown & M. Eldridge. 2008. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 169 186 .
M.C. Alvarado & J. Bachevalier. 2008. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 143 167 .
E.A. Kensinger & S. Corkin. 2008. Learning and Memory: A Comprehensive Reference. Learning and Memory: A Comprehensive Reference 259 285 .
S.L. Danckert, J.S. Gati, R.S. Menon & S. Köhler. (2007) Perirhinal and hippocampal contributions to visual recognition memory can be distinguished from those of occipito‐temporal structures based on conscious awareness of prior occurrence. Hippocampus 17:11, pages 1081-1092.
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Joseph T. Devlin & Cathy J. Price. (2007) Perirhinal Contributions to Human Visual Perception. Current Biology 17:17, pages 1484-1488.
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Elisabeth A. MurrayTimothy J. Bussey & Lisa M. Saksida. (2007) Visual Perception and Memory: A New View of Medial Temporal Lobe Function in Primates and Rodents. Annual Review of Neuroscience 30:1, pages 99-122.
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Susan J. Bartko, Boyer D. Winters, Rosemary A. Cowell, Lisa M. Saksida & Timothy J. Bussey. (2007) Perceptual Functions of Perirhinal Cortex in Rats: Zero-Delay Object Recognition and Simultaneous Oddity Discriminations. The Journal of Neuroscience 27:10, pages 2548-2559.
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Sidney R. Lehky & Keiji Tanaka. (2007) Enhancement of Object Representations in Primate Perirhinal Cortex During a Visual Working-Memory Task. Journal of Neurophysiology 97:2, pages 1298-1310.
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Anthony D. Cate & Stefan Köhler. (2006) The missing whole in perceptual models of perirhinal cortex. Trends in Cognitive Sciences 10:9, pages 396-397.
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Larry R. Squire, Yael Shrager & Daniel A. Levy. (2006) Lack of evidence for a role of medial temporal lobe structures in visual perception. Learning & Memory 13:2, pages 106-107.
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Mark J. Buckley & David Gaffan. (2006) Perirhinal cortical contributions to object perception. Trends in Cognitive Sciences 10:3, pages 100-107.
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Yael Shrager, Jeffrey J. Gold, Ramona O. Hopkins & Larry R. Squire. (2006) Intact Visual Perception in Memory-Impaired Patients with Medial Temporal Lobe Lesions. The Journal of Neuroscience 26:8, pages 2235-2240.
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