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International Journal of Neuroscience Volume 30, 1986 - Issue 1-2
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Original Article

Memory related role of the posterior cholinergic system

Josef Kessler University of Konstanz, Konstanz, Federal Republic of Germany
,
Hans J. Markowitsch University of Konstanz, Konstanz, Federal Republic of Germany
&
Gerold Sigg University of Konstanz, Konstanz, Federal Republic of Germany
Pages 101-119 | Received 21 Jan 1986, Published online: 07 Jul 2009

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Miroljub Popović, Katica Jovanova-nešić, Natalija Popović, Dubravko Bokonjić, Silva Dobrić, Nedeljko Rosić & Ljubisav Rakić. (1996) Behavioral and Adaptive Status in an Experimental Model of Alzheimer's Disease in Rats. International Journal of Neuroscience 86:3-4, pages 281-299.
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Corrado Bucherelli, Giovanna Tassoni & Jan Bures. (1993) Differential Effect of Functional Ablation of Thalamic Reticular Nucleus on the Acquisition of Passive and Active Avoidance. International Journal of Neuroscience 73:1-2, pages 77-84.
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Articles from other publishers (33)

Lakshmi Digala, Sireesha Murala & Pradeep C. Bollu. 2022. Neurochemistry in Clinical Practice. Neurochemistry in Clinical Practice 211 237 .
Stefan M. Brudzynski. (2013) The Ascending Mesolimbic Cholinergic System—A Specific Division of the Reticular Activating System Involved in the Initiation of Negative Emotional States. Journal of Molecular Neuroscience 53:3, pages 436-445.
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Mariza Bortolanza, Evellyn C. Wietzikoski, Suelen L. Boschen, Patricia A. Dombrowski, Mary Latimer, Duncan A.A. MacLaren, Philip Winn & Claudio Da Cunha. (2010) Functional disconnection of the substantia nigra pars compacta from the pedunculopontine nucleus impairs learning of a conditioned avoidance task. Neurobiology of Learning and Memory 94:2, pages 229-239.
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Satorra-Marín Núria, Homs-Ormo Sandra, Arévalo-García Rosa, Morgado-Bernal Ignacio & Coll-Andreu Margalida. (2005) Effects of pre-training pedunculopontine tegmental nucleus lesions on delayed matching- and non-matching-to-position in a T-maze in rats. Behavioural Brain Research 160:1, pages 115-124.
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Hermenegildo Sos-Hinojosa, Gemma Guillazo-Blanch, Anna Vale-Martı́nez, Roser Nadal, Ignacio Morgado-Bernal & Margarita Martı́-Nicolovius. (2003) Parafascicular electrical stimulation attenuates nucleus basalis magnocellularis lesion-induced active avoidance retention deficit. Behavioural Brain Research 144:1-2, pages 37-48.
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Sandra Homs-Ormo, Margalida Coll-Andreu, Núria Satorra-Marı́n, Rosa Arévalo-Garcı́a & Ignacio Morgado-Bernal. (2003) Effects of pedunculopontine tegmental nucleus lesions on emotional reactivity and locomotion in rats. Brain Research Bulletin 59:6, pages 495-503.
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Michael McKinney, Karen Baskerville, David Personett, Katrina Williams & John Gonzales. 2003. Neuronal and Vascular Plasticity. Neuronal and Vascular Plasticity 27 74 .
Glenda L Keating, Susannah C Walker & Philip Winn. (2002) An examination of the effects of bilateral excitotoxic lesions of the pedunculopontine tegmental nucleus on responding to sucrose reward. Behavioural Brain Research 134:1-2, pages 217-228.
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Núria Satorra-Marı́n, Margalida Coll-Andreu, Isabel Portell-Cortés, Laura Aldavert-Vera & Ignacio Morgado-Bernal. (2001) Impairment of two-way active avoidance after pedunculopontine tegmental nucleus lesions: effects of conditioned stimulus duration. Behavioural Brain Research 118:1, pages 1-9.
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Francesco Leri & Keith B.J Franklin. (2000) Diazepam modifies the effect of pedunculopontine lesions on morphine but not on amphetamine conditioned place preference. Behavioural Brain Research 117:1-2, pages 21-27.
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Jana Podhorna & Keith B.J Franklin. (2000) Pontine Tegmentum Lesions Increase Anxiety-Like Behavior in Rats. Pharmacology Biochemistry and Behavior 65:2, pages 267-273.
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Francesco Leri & Keith B.J Franklin. (1998) Learning impairments caused by lesions to the pedunculopontine tegmental nucleus: an artifact of anxiety?. Brain Research 807:1-2, pages 187-192.
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Kazuo Nakamura, Mitsue Kurasawa & Yushiro Tanaka. (1998) Scopolamine model of delirium in rats and reversal of the performance impairment by aniracetam. Drug Development Research 43:2, pages 85-97.
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Michael Noonan, Michelle Penque & Seymour Axelrod. (1996) Septal lesions impair rats' Morris test performance but facilitate left-right response differentiation. Physiology & Behavior 60:3, pages 895-900.
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G. Leanza, J. Muir, O. G. Nilsson, R. G. Wiley, S. B. Dunnett & A. Björklund. (2006) Selective Immunolesioning of the Basal Forebrain Cholinergic System Disrupts Short‐term Memory in Rats. European Journal of Neuroscience 8:7, pages 1535-1544.
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Peter R. Dodd, Gregory J. Thomas, Andrew McCloskey, Denis I Crane & Ian D Smith. (2005) The Neurochemical Pathology of Thiamine Deficiency : GABAA and GlutamateNNMDA Receptor Binding Sites in a Goat Model. Metabolic Brain Disease 11:1, pages 39-54.
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Philip J. Langlais, Shu-Xing Zhang & Lisa M. Savage. (2005) Neuropathology of thiamine deficiency: an update on the comparative analysis of human disorders and experimental models. Metabolic Brain Disease 11:1, pages 19-37.
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Thomas J. Brown & Lisa A. Shipley. (1995) Determination of xanomeline (LY246708 tartrate), an investigational agent for the treatment of Alzheimer's disease, in rat and monkey plasma by capillary gas chromatography with nitrogen-phosphorus detection. Journal of Chromatography B: Biomedical Sciences and Applications 665:2, pages 337-344.
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Thomas Sleekier, Wendy Inglis, Philip Winn & Arjun Sahgal. (1994) The pedunculopontine tegmental nucleus: a role in cognitive processes?. Brain Research Reviews 19:3, pages 298-318.
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Thomas Steckler, Alexander B. Keith & Arjun Sahgal. (1994) Lesions of the pedunculopontine tegmental nucleus do not alter delayed non-matching to position accuracy. Behavioural Brain Research 61:1, pages 107-112.
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C. Frank, S. Sagratella, T. Niglio, M.G. Caporali, E. Bronzetti & A. Scotti de Carolis. (1992) Hippocampal long-term potentiation in nucleus basalis magnocellularis-lesioned rats. Brain Research Bulletin 29:6, pages 847-851.
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MICHAEL McKINNEY & JOSEPH T. COYLE. (1991) The Potential for Muscarinic Receptor Subtype-Specific Pharmacotherapy for Alzheimer's Disease. Mayo Clinic Proceedings 66:12, pages 1225-1237.
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A.D. J.A.M. Dekker, Donald J. Connor & Leon J. Thal. (1991) The role of cholinergic projections from the nucleus basalis in memory. Neuroscience & Biobehavioral Reviews 15:2, pages 299-317.
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F. Dellu, W. Mayo, J. Cherkaoui, M. Le Moal & H. Simon. (1991) Learning disturbances following excitotoxic lesion of cholinergic pedunculo-pontine nucleus in the rat. Brain Research 544:1, pages 126-132.
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Raymond P. Kesner & Debra L. Johnson. 1991. Activation to Acquisition. Activation to Acquisition 263 288 .
R.P. Kesner, K.A. Crutcher & H. Omana. (1990) Memory deficits following nucleus basalis magnocellularis lesions may be mediated through limbic, but not neocortical, targets. Neuroscience 38:1, pages 93-102.
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Nancy J. Woolf & Larry L. Butcher. (1989) Cholinergic systems in the rat brain: IV. descending projections of the pontomesencephalic tegmentum. Brain Research Bulletin 23:6, pages 519-540.
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C.P.J. Dokla & L.J. Thal. (1989) Nucleus basalis magnocellularis lesions facilitate two-way active avoidance. Physiology & Behavior 46:4, pages 763-765.
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Giancarlo Pepeu & Giacomo Spignoli. (1989) Nootropic drugs and brain cholinergic mechanisms. Progress in Neuro-Psychopharmacology and Biological Psychiatry 13, pages S77-S88.
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R.J. Mandel & L.J. Thal. (1988) Physostigmine improves water maze performance following nucleus basalis magnocellularis lesions in rats. Psychopharmacology 96:3, pages 421-425.
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Raymond P. Kesner. (1988) Reevaluation of the contribution of the basal forebrain cholinergic system to memory. Neurobiology of Aging 9, pages 609-616.
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Hugh A. Tilson, R.L. McLamb, S. Shaw, B.C. Rogers, P. Pediaditakis & L. Cook. (1988) Radial-arm maze deficits produced by colchicine administered into the area of the nucleus basalis are ameliorated by cholinergic agents. Brain Research 438:1-2, pages 83-94.
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Eva Irle, Josef Kessler, Hans J. Markowitsch & Wolfgang Hofmann. (1987) Primate learning tasks reveal strong impairments in patients with presenile or senile dementia of the Alzheimer type. Brain and Cognition 6:4, pages 429-449.
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