Free recall and recognition in a network model of the hippocampus: simulating effects of scopolamine on human memory function
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[1] Michael E. Hasselmo,et al. Modeling the Piriform Cortex , 1999 .
[2] David S. Touretzky,et al. Neural Representation of Space in Rats and Robots , 1999 .
[3] M. Hasselmo,et al. Bursting and oscillations in a biophysical model of hippocampal region CA3: implications for associative memory and epileptiform activity , 1997 .
[4] Functional magnetic resonance imaging and computational modeling: an integrated study of hippocampal function , 1997 .
[5] David Foster,et al. Simulation studies of the CA3 hippocampal subfield modelled as an attractor neural network , 1997, Neural Networks.
[6] M. Hasselmo,et al. GABAergic modulation of hippocampal population activity: sequence learning, place field development, and the phase precession effect. , 1997, Journal of neurophysiology.
[7] M. Hasselmo,et al. Noradrenergic suppression of synaptic transmission may influence cortical signal-to-noise ratio. , 1997, Journal of neurophysiology.
[8] Functional Magnetic Resonance Imaging and Computational Modeling , 1997 .
[9] M. Hasselmo,et al. Encoding and retrieval of episodic memories: Role of cholinergic and GABAergic modulation in the hippocampus , 1998, Hippocampus.
[10] M. Hasselmo,et al. Suppression of synaptic transmission may allow combination of associative feedback and self-organizing feedforward connections in the neocortex , 1996, Behavioural Brain Research.
[11] J. R. Baker,et al. The hippocampal formation participates in novel picture encoding: evidence from functional magnetic resonance imaging. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[12] M. Hasselmo,et al. NMDA-dependent modulation of CA1 local circuit inhibition , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[13] H. Eichenbaum,et al. Conservation of hippocampal memory function in rats and humans , 1996, Nature.
[14] W B Levy,et al. A sequence predicting CA3 is a flexible associator that learns and uses context to solve hippocampal‐like tasks , 1996, Hippocampus.
[15] M. Hasselmo,et al. Cholinergic modulation of activity-dependent synaptic plasticity in the piriform cortex and associative memory function in a network biophysical simulation , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[16] G. Buzsáki,et al. Temporal structure in spatially organized neuronal ensembles: a role for interneuronal networks , 1995, Current Opinion in Neurobiology.
[17] M. Hasselmo,et al. Cholinergic modulation of cortical oscillatory dynamics. , 1995, Journal of neurophysiology.
[18] James L. McClelland,et al. Why there are complementary learning systems in the hippocampus and neocortex: insights from the successes and failures of connectionist models of learning and memory. , 1995, Psychological review.
[19] M. Hasselmo,et al. Dynamics of learning and recall at excitatory recurrent synapses and cholinergic modulation in rat hippocampal region CA3 , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[20] M. Hasselmo. Neuromodulation and cortical function: modeling the physiological basis of behavior , 1995, Behavioural Brain Research.
[21] G. Buzsáki,et al. Gamma (40-100 Hz) oscillation in the hippocampus of the behaving rat , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[22] Cholinergic modulation of activity-dependent synaptic plasticity in rat piriform cortex , 1995 .
[23] William B. Levy,et al. Unification Of Hippocampal Function Via Computational/Encoding Considerations , 1995 .
[24] James L. McClelland,et al. Hippocampal conjunctive encoding, storage, and recall: Avoiding a trade‐off , 1994, Hippocampus.
[25] H. Hodges,et al. Cognitive deficits induced by global cerebral ischaemia: Relationship to brain damage and reversal by transplants , 1994, Behavioural Brain Research.
[26] B. K. Hartman,et al. Ultrastructural and morphometric features of the acetylcholine innervation in adult rat parietal cortex: An electron microscopic study in serial sections , 1994, The Journal of comparative neurology.
[27] M. Gluck,et al. Context, conditioning, and hippocampal rerepresentation in animal learning. , 1994, Behavioral neuroscience.
[28] G. Buzsáki,et al. Selective activation of deep layer (V-VI) retrohippocampal cortical neurons during hippocampal sharp waves in the behaving rat , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[29] Michael Recce,et al. A model of hippocampal function , 1994, Neural Networks.
[30] M. Hasselmo,et al. Modulation of the input/output function of rat piriform cortex pyramidal cells. , 1994, Journal of neurophysiology.
[31] M. Hasselmo,et al. Laminar selectivity of the cholinergic suppression of synaptic transmission in rat hippocampal region CA1: computational modeling and brain slice physiology , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[32] E. Rolls,et al. Computational analysis of the role of the hippocampus in memory , 1994, Hippocampus.
[33] M. Humphreys,et al. An auto-associative neural network for sparse representations : analysis and application to models of recognition and cued recall , 1994 .
[34] William B. Levy,et al. Setting the Activity Level in Sparse Random Networks , 1994, Neural Computation.
[35] Michael E. Hasselmo,et al. Runaway synaptic modification in models of cortex: Implications for Alzheimer's disease , 1994, Neural Networks.
[36] J. DeLuca. Predicting Neurobehavioral Patterns Following Anterior Communicating Artery Aneurysm , 1993, Cortex.
[37] M. Gluck,et al. Hippocampal mediation of stimulus representation: A computational theory , 1993, Hippocampus.
[38] B L McNaughton,et al. Dynamics of the hippocampal ensemble code for space. , 1993, Science.
[39] J. Lisman,et al. Heightened synaptic plasticity of hippocampal CA1 neurons during a Cholinergically induced rhythmic state , 1993, Nature.
[40] B. H. Bland,et al. Extrinsic and intrinsic properties underlying oscillation and synchrony in limbic cortex , 1993, Progress in Neurobiology.
[41] M. Stewart,et al. Current source density analysis of the hippocampal theta rhythm: associated sustained potentials and candidate synaptic generators , 1993, Brain Research.
[42] M. Van der Linden,et al. Proactive interference in patients with amnesia resulting from anterior communicating artery aneurysm. , 1993, Journal of clinical and experimental neuropsychology.
[43] J. O’Keefe,et al. Phase relationship between hippocampal place units and the EEG theta rhythm , 1993, Hippocampus.
[44] M. Hasselmo,et al. Acetylcholine and memory , 1993, Trends in Neurosciences.
[45] D. Amaral,et al. Lesions of the perirhinal and parahippocampal cortices in the monkey produce long-lasting memory impairment in the visual and tactual modalities , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[46] B. Murdock,et al. Analysis of the list-strength effect. , 1993 .
[47] L. F. Abbott,et al. Self-Sustained Firing in Populations of Integrate-and-Fire Neurons , 1993, SIAM J. Appl. Math..
[48] J. Metcalfe,et al. Novelty monitoring, metacognition, and control in a composite holographic associative recall model: implications for Korsakoff amnesia. , 1993, Psychological review.
[49] Michael E. Hasselmo,et al. Acetylcholine and Learning in a Cortical Associative Memory , 1993, Neural Computation.
[50] A. Treves. Mean-field analysis of neuronal spike dynamics , 1993 .
[51] H. Eichenbaum,et al. Neuronal activity in the hippocampus during delayed non‐match to sample performance in rats: Evidence for hippocampal processing in recognition memory , 1992, Hippocampus.
[52] M. Hasselmo,et al. Cholinergic modulation of cortical associative memory function. , 1992, Journal of neurophysiology.
[53] T. A. Pitler,et al. Cholinergic excitation of GABAergic interneurons in the rat hippocampal slice. , 1992, The Journal of physiology.
[54] E T Rolls,et al. Computational constraints suggest the need for two distinct input systems to the hippocampal CA3 network , 1992, Hippocampus.
[55] N. Schmajuk,et al. Stimulus configuration, classical conditioning, and hippocampal function. , 1992, Psychological review.
[56] W. Singer,et al. Agonists of cholinergic and noradrenergic receptors facilitate synergistically the induction of long-term potentiation in slices of rat visual cortex , 1992, Brain Research.
[57] H. Eichenbaum,et al. The hippocampus--what does it do? , 1992, Behavioral and neural biology.
[58] R. Beninger. Activation to Acquisition: Functional Aspects of the Basal Forebrain Cholinergic System , 1991 .
[59] Chelation of postsynaptic Ca2+ facilitates long-term potentiation of hippocampal IPSPs. , 1991, Neuroreport.
[60] R M Shiffrin,et al. Interference and the representation of events in memory. , 1991, Journal of experimental psychology. Learning, memory, and cognition.
[61] J R Hodges,et al. Anterograde amnesia with fornix damage following removal of IIIrd ventricle colloid cyst. , 1991, Journal of neurology, neurosurgery, and psychiatry.
[62] R. Traub,et al. Neuronal Networks of the Hippocampus , 1991 .
[63] M. Bear,et al. Cholinergic Modulation of Synaptic Plasticity in Sensory Neocortex , 1991 .
[64] M. Mishkin,et al. Comparison of the effects of scopolamine administered before and after acquisition in a test of visual recognition memory in monkeys. , 1991, Behavioral and neural biology.
[65] E. Ruppin,et al. Recall and Recognition in an Attractor Neural Network Model of Memory Retrieval , 1991 .
[66] Robert D. Blitzer,et al. Cholinergic stimulation enhances long-term potentiation in the CA1 region of rat hippocampus , 1990, Neuroscience Letters.
[67] J. Sarvey,et al. Muscarinic receptor activation facilitates the induction of long-term potentiation (LTP) in the rat dentate gyrus , 1990, Neuroscience Letters.
[68] R Ratcliff,et al. Connectionist models of recognition memory: constraints imposed by learning and forgetting functions. , 1990, Psychological review.
[69] R. Shiffrin,et al. List-strength effect: I. Data and discussion. , 1990, Journal of experimental psychology. Learning, memory, and cognition.
[70] G. Buzsáki. Two-stage model of memory trace formation: A role for “noisy” brain states , 1989, Neuroscience.
[71] D. Amaral,et al. The three-dimensional organization of the hippocampal formation: A review of anatomical data , 1989, Neuroscience.
[72] H Eichenbaum,et al. Further studies of hippocampal representation during odor discrimination learning. , 1989, Behavioral neuroscience.
[73] H. Buschke,et al. Does Scopolamine Directly Impair Memory? , 1989, Journal of Cognitive Neuroscience.
[74] R. Sutherland,et al. Configural association theory: The role of the hippocampal formation in learning, memory, and amnesia , 1989, Psychobiology.
[75] C. Cotman,et al. Carbachol depresses synaptic responses in the medial but not the lateral perforant path , 1989, Brain Research.
[76] W. Levy. A computational approach to hippocampal function , 1989 .
[77] William E. Hockley,et al. Short-term memory for associations , 1989 .
[78] Cholinergic responses in human neocortical neurones. , 1989, EXS.
[79] H. Eichenbaum,et al. Spatial and behavioral correlates of hippocampal neuronal activity. , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[80] G. Preston,et al. Modelling dementia: Effects of scopolamine on memory and attention , 1988, Neuropsychologia.
[81] R. Nicoll,et al. Classification of muscarinic responses in hippocampus in terms of receptor subtypes and second-messenger systems: electrophysiological studies in vitro , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[82] Douglas L. Hintzman,et al. Judgments of frequency and recognition memory in a multiple-trace memory model. , 1988 .
[83] P. Schwindt,et al. Slow conductances in neurons from cat sensorimotor cortex in vitro and their role in slow excitability changes. , 1988, Journal of neurophysiology.
[84] B. McNaughton,et al. Hippocampal synaptic enhancement and information storage within a distributed memory system , 1987, Trends in Neurosciences.
[85] D L Schacter,et al. Neurochemical dissociation of memory systems , 1987, Neurology.
[86] M. Kopelman. The Cholinergic Neurotransmitter System in Human Memory and Dementia: A Review , 1986, The Quarterly journal of experimental psychology. A, Human experimental psychology.
[87] L. Squire,et al. Human amnesia and the medial temporal region: enduring memory impairment following a bilateral lesion limited to field CA1 of the hippocampus , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[88] S. Kelso,et al. Hebbian synapses in hippocampus. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[89] N. Butters,et al. Patterns of memory failure after scopolamine treatment: implications for cholinergic hypotheses of dementia. , 1986, Behavioral and neural biology.
[90] H. Wigström,et al. Hippocampal long-term potentiation is induced by pairing single afferent volleys with intracellularly injected depolarizing current pulses. , 1986, Acta physiologica Scandinavica.
[91] M. Mishkin,et al. The effects of physostigmine and scopolamine on recognition memory in monkeys. , 1986, Behavioral and neural biology.
[92] C. Frith,et al. The effects of intravenous diazepam and hyoscine upon recognition memory , 1984, Behavioural Brain Research.
[93] R. Nicoll,et al. Control of the repetitive discharge of rat CA 1 pyramidal neurones in vitro. , 1984, The Journal of physiology.
[94] P. Mullen,et al. A Study of Benzhexol Abuse , 1984, British Journal of Psychiatry.
[95] G. Rose,et al. The role of inhibitory mechanisms in hippocampal long-term potentiation , 1984, Neuroscience Letters.
[96] S. Corkin. Lasting Consequences of Bilateral Medial Temporal Lobectomy: Clinical Course and Experimental Findings in H.M. , 1984 .
[97] C. Frith,et al. The Effects of Intravenous Diazepam and Hyoscine upon Human Memory , 1984, The Quarterly journal of experimental psychology. A, Human experimental psychology.
[98] R. Shiffrin,et al. A retrieval model for both recognition and recall. , 1984, Psychological review.
[99] G Mandler,et al. The information that amnesic patients do not forget. , 1984, Journal of experimental psychology. Learning, memory, and cognition.
[100] Neal J. Cohen,et al. Recall of remote episodic memory in amnesia , 1983, Neuropsychologia.
[101] James A. Anderson,et al. Cognitive and psychological computation with neural models , 1983, IEEE Transactions on Systems, Man, and Cybernetics.
[102] K. Wesnes,et al. Effects of scopolamine on stimulus sensitivity and response bias in a visual vigilance task. , 1983, Neuropsychobiology.
[103] B. Murdock. A Theory for the Storage and Retrieval of Item and Associative Information. , 1982 .
[104] D. Prince,et al. Ionic mechanisms of cholinergic excitation in mammalian hippocampal pyramidal cells , 1982, Brain Research.
[105] J J Hopfield,et al. Neural networks and physical systems with emergent collective computational abilities. , 1982, Proceedings of the National Academy of Sciences of the United States of America.
[106] Janet Metcalfe,et al. A composite holographic associative recall model , 1982 .
[107] R. Dingledine,et al. Presynaptic inhibitory effect of acetylcholine in the hippocampus , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[108] Janet Metcalfe,et al. An encoding and retrieval model of single-trial free recall , 1981 .
[109] W. Levy,et al. Synapses as associative memory elements in the hippocampal formation , 1979, Brain Research.
[110] S. Mewaldt,et al. The effects and interactions of scopolamine, physostigmine and methamphetamine on human memory , 1979, Pharmacology Biochemistry and Behavior.
[111] D. Drachman. Central cholinergic system and memory , 1979 .
[112] Jørn Hounsgaard,et al. Presynaptic inhibitory action of acetylcholine in area CA1 of the hippocampus , 1978, Experimental Neurology.
[113] B. McNaughton,et al. Synaptic enhancement in fascia dentata: Cooperativity among coactive afferents , 1978, Brain Research.
[114] Stephen A. Ritz,et al. Distinctive features, categorical perception, and probability learning: some applications of a neural model , 1977 .
[115] K. Heilman,et al. Korsakoff's syndrome resulting from bilateral fornix lesions , 1977, Neurology.
[116] Gordon Winocur,et al. An investigation of paired-associate learning in amnesic patients , 1976, Neuropsychologia.
[117] E. Tulving. Ecphoric processes in recall and recognition. , 1976 .
[118] W A Little,et al. A statistical theory of short and long term memory. , 1975, Behavioral biology.
[119] J J Miller,et al. The hippocampal control of neuronal discharges in the septum of the rat , 1974, The Journal of physiology.
[120] J. B. Ranck,et al. Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. I. Behavioral correlates and firing repertoires. , 1973, Experimental neurology.
[121] I. Grove-White,et al. An analysis of the learning deficit following hyoscine administration to man , 1973, British journal of pharmacology.
[122] N Butters,et al. The role of interference and encoding in the short-term memory deficits of Korsakoff patients. , 1972, Neuropsychologia.
[123] William A. Roberts,et al. Free Recall of Word Lists Varying in Length and Rate of Presentation: A Test of Total-Time Hypotheses. , 1972 .
[124] John R. Anderson,et al. RECOGNITION AND RETRIEVAL PROCESSES IN FREE RECALL , 1972 .
[125] J. Cowan,et al. Excitatory and inhibitory interactions in localized populations of model neurons. , 1972, Biophysical journal.
[126] J. O'Keefe,et al. The hippocampus as a spatial map. Preliminary evidence from unit activity in the freely-moving rat. , 1971, Brain research.
[127] D Marr,et al. Simple memory: a theory for archicortex. , 1971, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[128] D. Safer,et al. The central effects of scopolamine in man. , 1971, Biological psychiatry.
[129] A. Baddeley,et al. Amnesia and the distinction between long- and short-term memory. , 1970 .
[130] Bennet B. Murdock,et al. 9 – Short-Term Memory for Associations1 , 1970 .
[131] D. Norman. Toward a theory of memory and attention. , 1968 .
[132] C Yamamoto,et al. Presynaptic action of acetylcholine in thin sections from the guinea pig dentate gyrus in vitro. , 1967, Experimental neurology.
[133] K. Krnjević,et al. Acetylcholine‐sensitive cells in the cerebral cortex , 1963, The Journal of physiology.
[134] Murdock,et al. The serial position effect of free recall , 1962 .
[135] A. Ostfeld,et al. Central nervous system effects of hyoscine in man. , 1962, The Journal of pharmacology and experimental therapeutics.
[136] W. Penfield,et al. Memory deficit produced by bilateral lesions in the hippocampal zone. , 1958, A.M.A. archives of neurology and psychiatry.
[137] W. Scoville,et al. LOSS OF RECENT MEMORY AFTER BILATERAL HIPPOCAMPAL LESIONS , 1957, Journal of neurology, neurosurgery, and psychiatry.
[138] Harry Levi Hollingworth,et al. Characteristic differences between recall and recognition. , 1913 .