The pedunculopontine tegmental nucleus: Where the striatum meets the reticular formation
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[1] M. Olmstead,et al. Effects of pedunculopontine tegmental nucleus lesions on morphine-induced conditioned place preference and analgesia in the formalin test , 1993, Neuroscience.
[2] B. Jones,et al. Immunohistochemical study of choline acetyltransferase‐immunoreactive processes and cells innervating the pontomedullary reticular formation in the rat , 1990, The Journal of comparative neurology.
[3] H. Hoffman,et al. Reflex modification in the domain of startle: I. Some empirical findings and their implications for how the nervous system processes sensory input. , 1980, Psychological review.
[4] C. Saper,et al. Pedunculopontine tegmental nucleus of the rat: Cytoarchitecture, cytochemistry, and some extrapyramidal connections of the mesopontine tegmentum , 1987, The Journal of comparative neurology.
[5] K. Fujimoto,et al. Impaired acquisition, preserved retention and retrieval of avoidance behavior after destruction of pedunculopontine nucleus areas in the rat , 1992, Neuroscience Research.
[6] E. T. Iwamoto. Characterization of the antinociception induced by nicotine in the pedunculopontine tegmental nucleus and the nucleus raphe magnus. , 1991, The Journal of pharmacology and experimental therapeutics.
[7] M. Mesulam,et al. Central cholinergic pathways in the rat: An overview based on an alternative nomenclature (Ch1–Ch6) , 1983, Neuroscience.
[8] R. McCarley,et al. Cholinergic projections from the laterodorsal and pedunculopontine tegmental nuclei to the pontine gigantocellular tegmental field in the cat , 1988, Brain Research.
[9] C. Saper,et al. Evidence for a cholinergic projection from the pedunculopontine tegmental nucleus to the rostral ventrolateral medulla in the rat , 1990, Brain Research.
[10] R. Spencer,et al. A cholinergic projection to the rat superior colliculus demonstrated by retrograde transport of horseradish peroxidase and choline acetyltransferase immunohistochemistry , 1986, The Journal of comparative neurology.
[11] Howard S. Hoffman,et al. Midbrain reticular formation involvement in the inhibition of acoustic startle , 1981, Physiology & Behavior.
[12] Jeffrey T. Keller,et al. Connections of the subthalamic nucleus in the monkey , 1981, Brain Research.
[13] G. Mogenson,et al. Subpallidal-pedunculopontine projections but not subpallidal-mediodorsal thalamus projections contribute to spontaneous exploratory locomotor activity , 1989, Brain Research.
[14] P. Redgrave,et al. Neuroleptic suppression of feeding and oral stereotypy following microinjections of carbachol into substantia nigra , 1980, Neuroscience Letters.
[15] S. Haber,et al. Organization of the output of the ventral striatopallidal system in the rat: Ventral pallidal efferents , 1993, Neuroscience.
[16] M. Roger,et al. Afferents to the zona incerta in the rat: A combined retrograde and anterograde study , 1985, The Journal of comparative neurology.
[17] C. Noback. Brain of a gorilla. II. Brain stem nuclei , 1959, The Journal of comparative neurology.
[18] D. Kooy,et al. Tegmental pedunculopontine lesions in rats decrease saccharin's rewarding effects but not its memory-improving effect. , 1994 .
[19] L. Butcher,et al. Cholinergic projections to the substantia nigra from the pedunculopontine and laterodorsal tegmental nuclei , 1989, Neuroscience.
[20] G. Arbuthnott,et al. Topographical organization of the striatonigral pathway revealed by anterograde and retrograde neuroanatomical tracing techniques. , 1978, Journal of anatomy.
[21] E. Jodo,et al. Firing of ‘possibly’ cholinergic neurons in the rat laterodorsal tegmental nucleus during sleep and wakefulness , 1992, Brain Research.
[23] L. Chalupa. Visual Physiology of the Mammalian Superior Colliculus , 1984 .
[24] A. Parent,et al. Pedunculopontine nucleus in the squirrel monkey: Distribution of cholinergic and monoaminergic neurons in the mesopontine tegmentum with evidence for the presence of glutamate in cholinergic neurons , 1994, The Journal of comparative neurology.
[25] T. Robbins,et al. The Role of the Striatum in the Mental Chronometry of Action: A Theoretical Review , 1990, Reviews in the neurosciences.
[26] M. Olmstead,et al. Lesions of the pedunculopontine tegmental nucleus block drug-induced reinforcement but not amphetamine-induced locomotion , 1994, Brain Research.
[27] Douglas L. Jones,et al. From motivation to action: Functional interface between the limbic system and the motor system , 1980, Progress in Neurobiology.
[28] H. Fibiger,et al. Single cholinergic mesopontine tegmental neurons project to both the pontine reticular formation and the thalamus in the rat , 1990, Neuroscience.
[29] Shik Ml,et al. Control of walking and running by means of electric stimulation of the midbrain , 1966 .
[30] O. Phillipson. Afferent projections to A10 dopaminergic neurones in the rat as shown by the retrograde transport of horseradisd peroxidase , 1978, Neuroscience Letters.
[31] R. Lydic,et al. Pedunculopontine stimulation alters respiration and increases ACh release in the pontine reticular formation. , 1993, The American journal of physiology.
[32] H. Simon,et al. Learning disturbances following excitotoxic lesion of cholinergic pedunculo-pontine nucleus in the rat , 1991, Brain Research.
[33] E. Eidelberg,et al. Locomotor control in macaque monkeys. , 1981, Brain : a journal of neurology.
[34] P. Winn,et al. An investigation into the role of the pedunculopontine tegmental nucleus in the mediation of locomotion and orofacial stereotypy induced by d-amphetamine and apomorphine in the rat , 1994, Neuroscience.
[35] M. Goldstein,et al. Production of involuntary movements by L-dopa in monkeys with tegmental lesions. , 1971, Experimental neurology.
[36] K. Fujimoto,et al. Impairment of active avoidance produced after destruction of pedunculopontine nucleus areas in the rat , 1989, Neuroscience Research.
[37] R. Spencer,et al. A cholinergic projection to the rat substantia nigra from the pedunculopontine tegmental nucleus , 1987, Brain Research.
[38] E Garcia-Rill,et al. Locomotor projections from the pedunculopontine nucleus to the spinal cord. , 1990, Neuroreport.
[39] R. L. McBride,et al. The organization of feline entopeduncular nucleus projections: Anatomical studies , 1979, The Journal of comparative neurology.
[40] K. Semba,et al. Aminergic and cholinergic afferents to REM sleep induction regions of the pontine reticular formation in the rat , 1993, The Journal of comparative neurology.
[41] H. Fibiger,et al. Neuropeptides and nadph-diaphorase activity in the ascending cholinergic reticular system of the rat , 1986, Neuroscience.
[42] A. Jackson,et al. Basal ganglia and other afferent projections to the peribrachial region in the rat: A study using retrograde and anterograde transport of horseradish peroxidase , 1981, Neuroscience.
[43] C. Blaha,et al. Modulation of dopamine efflux in the striatum following cholinergic stimulation of the substantia nigra in intact and pedunculopontine tegmental nucleus-lesioned rats , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[44] J. Ostwald,et al. The mesencephalic locomotor region is activated during the auditory startle response of the unrestrained rat , 1991, Brain Research.
[45] M. Palkovits,et al. CHOLINE ACETYLTRANSFERASE CONTENT IN DISCRETE REGIONS OF THE RAT BRAIN STEM , 1975, Journal of neurochemistry.
[46] B. Wainer,et al. Afferent projections to the cholinergic pedunculopontine tegmental nucleus and adjacent midbrain extrapyramidal area in the albino rat. I. Retrograde tracing studies , 1992, The Journal of comparative neurology.
[47] M. Carpenter,et al. Efferent fibers of the subthalamic nucleus in the monkey. A comparison of the efferent projections of the subthalamic nucleus, substantia nigra and globus pallidus. , 1967, The American journal of anatomy.
[48] P. Calabresi,et al. Muscarine depolarizes rat substantia nigra zona compacta and ventral tegmental neurons in vitro through M1-like receptors. , 1990, The Journal of pharmacology and experimental therapeutics.
[49] A. Kelley,et al. Amphetamine microinjections into distinct striatal subregions cause dissociable effects on motor and ingestive behavior , 1989, Behavioural Brain Research.
[50] P. Winn,et al. Excitotoxic lesions of the pedunculopontine tegmental nucleus of the rat. II. Examination of eating and drinking, rotation, and reaching and grasping following unilateral ibotenate or quinolinate lesions , 1992, Brain Research.
[51] C. D. Stern,et al. Handbook of Chemical Neuroanatomy Methods in Chemical Neuroanatomy. Edited by A. Bjorklund and T. Hokfelt. Elsevier, Amsterdam, 1983. Cloth bound, 548 pp. UK £140. (Volume 1 in the series). , 1986, Neurochemistry International.
[52] H. Fibiger,et al. A comparison of the distribution of central cholinergic neurons as demonstrated by acetylcholinesterase pharmacohistochemistry and choline acetyltransferase immunohistochemistry , 1983, Brain Research Bulletin.
[53] J. D. Coulter,et al. Spinal projections from the midbrain in monkey , 1978, The Journal of comparative neurology.
[54] E. T. Iwamoto. Antinociception after nicotine administration into the mesopontine tegmentum of rats: evidence for muscarinic actions. , 1989, The Journal of pharmacology and experimental therapeutics.
[55] P. Reiner,et al. Noradrenaline hyperpolarizes identified rat mesopontine cholinergic neurons in vitro , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[56] D. Hommer,et al. Innervation of substantia nigra neurons by cholinergic afferents from pedunculopontine nucleus in the rat: neuroanatomical and electrophysiological evidence , 1987, Neuroscience.
[57] G Oakson,et al. Neuronal activities in brain-stem cholinergic nuclei related to tonic activation processes in thalamocortical systems , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[58] J. Palacios,et al. Muscarinic cholinergic receptor subtypes in the human brain. II. Quantitative autoradiographic studies , 1986, Brain Research.
[59] M. Filion,et al. Pallidal neurons branching to the thalamus and to the midbrain in the monkey , 1980, Brain Research.
[60] M. Pisa. Motor functions of the striatum in the rat: Critical role of the lateral region in tongue and forelimb reaching , 1988, Neuroscience.
[61] H. Fibiger,et al. ACETYLCHOLINESTERASE IN THE SUBSTANTIA NIGRA AND CAUDATE‐PUTAMEN OF THE RAT: PROPERTIES AND LOCALIZATION IN DOPAMINERGIC NEURONS , 1978, Journal of neurochemistry.
[62] M. Jouvet,et al. Brain stem PGO-on cells projecting directly to the cat dorsal lateral geniculate nucleus , 1980, Brain Research.
[63] D. Jacobowitz,et al. Behavioral investigation of the coexistence of substance P, corticotropin releasing factor, and acetylcholinesterase in lateral dorsal tegmental neurons projecting to the medial frontal cortex of the rat , 1985, Peptides.
[64] H. Fibiger,et al. Brainstem afferents to the magnocellular basal forebrain studied by axonal transport, immunohistochemistry, and electrophysiology in the rat , 1988, The Journal of comparative neurology.
[65] N. Swerdlow,et al. The neural substrates of sensorimotor gating of the startle reflex: a review of recent findings and their implications , 1992, Journal of psychopharmacology.
[66] J. Bolam,et al. Cholinergic input to dopaminergic neurons in the substantia nigra: A double immunocytochemical study , 1991, Neuroscience.
[67] Clifford B. Saper,et al. Projections of the pedunculopontine tegmental nucleus in the rat: evidence for additional extrapyramidal circuitry , 1982, Brain Research.
[68] Michael Wu,et al. Differential effects on locomotor activity of injections of procaine into mediodorsal thalamus and pedunculopontine nucleus , 1988, Brain Research Bulletin.
[69] N. Swerdlow,et al. Lesions of the dorsomedial nucleus of the thalamus, medial prefrontal cortex and pedunculopontine nucleus: effects on locomotor activity mediated by nucleus accumbens-ventral pallidal circuitry , 1987, Brain Research.
[70] D. S. Zahm,et al. Specificity in the projection patterns of accumbal core and shell in the rat , 1991, Neuroscience.
[71] D. Paré,et al. Various types of inhibitory postsynaptic potentials in anterior thalamic cells are differentially altered by stimulation of laterodorsal tegmental cholinergic nucleus , 1992, Neuroscience.
[72] David M. Jacobowitz,et al. Neurochemical and histochemical studies of the effect of a lesion of the nucleus cuneiformis on the cholinergic innervation of discrete areas of the rat brain , 1979, Brain Research.
[73] R. G. Robertson,et al. Neural mechanisms underlying parkinsonian symptoms based upon regional uptake of 2-deoxyglucose in monkeys exposed to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine , 1989, Neuroscience.
[74] N. Swerdlow,et al. Prepulse inhibition of acoustic startle in rats after lesions of the pedunculopontine tegmental nucleus. , 1993, Behavioral neuroscience.
[75] H. Tokuno,et al. A morphological evidence for monosynaptic projections from the nucleus tegmenti pedunculopontinus pars compacta (TPC) to nigrostriatal projection neurons , 1988, Neuroscience Letters.
[76] G. Mogenson,et al. Electrical and chemical activation of the mesencephalic and subthalamic locomotor regions in freely moving rats , 1988, Brain Research.
[77] Y. Smith,et al. Convergence of synaptic inputs from the striatum and the globus pallidus onto identified nigrocollicular cells in the rat: A double anterograde labelling study , 1991, Neuroscience.
[78] R. L. McBride,et al. Projections of the feline globus pallidus , 1980, Brain Research.
[79] J. Salamone,et al. A neurochemical and behavioral investigation of the involvement of nucleus accumbens dopamine in instrumental avoidance , 1993, Neuroscience.
[80] J. Luebke,et al. Serotonin hyperpolarizes cholinergic low-threshold burst neurons in the rat laterodorsal tegmental nucleus in vitro. , 1992, Proceedings of the National Academy of Sciences of the United States of America.
[81] S. T. Meller,et al. Investigations on the periaqueductal gray (PAG) of the rabbit: With consideration of experimental procedures and functional roles of the PAG , 1993, Progress in Neurobiology.
[82] J. Waddington,et al. [3H]quinuclidinyl benzylate and [3H]GABA receptor binding in rat substantia nigra after 6-hydroxy-dopamine lesions , 1980, Neuroscience Letters.
[83] H. Nauta,et al. Efferent projections of the subthalamic nucleus: An autoradiographic study in monkey and cat , 1978, The Journal of comparative neurology.
[84] D. S. Zahm,et al. Specificity in the efferent projections of the nucleus accumbens in the rat: Comparison of the rostral pole projection patterns with those of the core and shell , 1993, The Journal of comparative neurology.
[85] G. E. Alexander,et al. Parallel organization of functionally segregated circuits linking basal ganglia and cortex. , 1986, Annual review of neuroscience.
[86] E. Garcia-Rill,et al. Posterior midbrain-induced locomotion , 1990, Brain Research Bulletin.
[87] H. Fibiger,et al. State-dependent release of acetylcholine in rat thalamus measured by in vivo microdialysis , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[88] P. Clarke,et al. Autoradiographic evidence for nicotine receptors on nigrostriatal and mesolimbic dopaminergic neurons , 1985, Brain Research.
[89] D. van der Kooy,et al. The tegmental pedunculopontine nucleus: a brain-stem output of the limbic system critical for the conditioned place preferences produced by morphine and amphetamine , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[90] A. Levey,et al. Expression of muscarinic acetylcholine and dopamine receptor mRNAs in rat basal ganglia. , 1990, Proceedings of the National Academy of Sciences of the United States of America.
[91] P. Winn,et al. Excitotoxic lesions of the pedunculopontine tegmental nucleus of the rat. I. Comparison of the effects of various excitotoxins, with particular reference to the loss of immunohistochemically identified cholinergic neurons , 1992, Brain Research.
[92] J. A. Hobson,et al. A cholinoceptive desynchronized sleep induction zone in the anterodorsal pontine tegmentum: Locus of the sensitive region , 1990, Neuroscience.
[93] P. Winn,et al. Barbiturate anaesthesia reduces the neurotoxic effects of quinolinate but not ibotenate in the rat pedunculopontine tegmental nucleus , 1993, Neuroscience Letters.
[94] P. Soubrié. Reconciling the role of central serotonin neurons in human and animal behavior , 1986, Behavioral and Brain Sciences.
[95] M. Kelland,et al. Pedunculopontine tegmental nucleus-induced inhibition of muscle activity in the rat , 1989, Behavioural Brain Research.
[96] I. Grofová,et al. Nigropedunculopontine projection in the rat: An Anterograde tracing study with phaseolus vulgaris‐leucoagglutinin (PHA‐L) , 1991, The Journal of comparative neurology.
[97] G. E. Alexander,et al. Microstimulation of the primate neostriatum. II. Somatotopic organization of striatal microexcitable zones and their relation to neuronal response properties. , 1985, Journal of neurophysiology.
[98] John D. Salamone,et al. Different effects of nucleus accumbens and ventrolateral striatal dopamine depletions on instrumental response selection in the rat , 1993, Pharmacology Biochemistry and Behavior.
[99] D. Rasmusson,et al. Modification of neocortical acetylcholine release and electroencephalogram desynchronization due to brainstem stimulation by drugs applied to the basal forebrain , 1994, Neuroscience.
[100] A. Parent,et al. Pedunculopontine nucleus in the squirrel monkey: Projections to the basal ganglia as revealed by anterograde tract‐tracing methods , 1994, The Journal of comparative neurology.
[101] GA Jicha,et al. Vacuous jaw movements and feeding deficits in rats with ventrolateral striatal dopamine depletion: possible relation to parkinsonian symptoms , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[102] H. Pape,et al. Nitric oxide controls oscillatory activity in thalamocortical neurons , 1992, Neuron.
[103] C. Shute,et al. The ascending cholinergic reticular system: neocortical, olfactory and subcortical projections. , 1967, Brain : a journal of neurology.
[104] Arjun Sahgal,et al. The pedunculopontine tegmental nucleus: a role in cognitive processes? , 1994, Brain Research Reviews.
[105] R. D. Schwartz. Autoradiographic distribution of high affinity muscarinic and nicotinic cholinergic receptors labeled with [3H]acetylcholine in rat brain. , 1986, Life sciences.
[106] S. Grant,et al. Glutamate-like immunoreactivity in neurons of the laterodorsal tegmental and pedunculopontine nuclei in the rat , 1990, Neuroscience Letters.
[107] D. Jacobowitz,et al. Determination of acetylcholine in discrete regions of the rat brain , 1977, Brain Research.
[108] A. Bechara,et al. Lesions of the tegmental pedunculopontine nucleus: Effects on the locomotor activity induced by morphine and amphetamine , 1992, Pharmacology Biochemistry and Behavior.
[109] Larry L. Butcher,et al. Cholinergic systems in the rat brain: III. Projections from the pontomesencephalic tegmentum to the thalamus, tectum, basal ganglia, and basal forebrain , 1986, Brain Research Bulletin.
[110] A. Jackson,et al. Nucleus tegmenti pedunculopontinus: Efferent connections with special reference to the basal ganglia, studied in the rat by anterograde and retrograde transport of horseradish peroxidase , 1983, Neuroscience.
[111] B. Wainer,et al. Ascending projections from the pedunculopontine tegmental nucleus and the adjacent mesopontine tegmentum in the rat , 1988, The Journal of comparative neurology.
[112] R. Llinás,et al. Serotonergic and cholinergic inhibition of mesopontine cholinergic neurons controlling rem sleep: An in vitro electrophysiological study , 1994, Neuroscience.
[113] B. Jones,et al. The efferent projections from the reticular formation and the locus coeruleus studied by anterograde and retrograde axonal transport in the rat , 1985, The Journal of comparative neurology.
[114] E. Garcia-Rill. The pedunculopontine nucleus , 1991, Progress in Neurobiology.
[115] R. Llinás,et al. The functional states of the thalamus and the associated neuronal interplay. , 1988, Physiological reviews.
[116] W. Nauta,et al. Projections of the lentiform nucleus in the monkey. , 1966, Brain research.
[117] C. Saper,et al. Organization of cerebral cortical afferent systems in the rat. II. Hypothalamocortical projections , 1985, The Journal of comparative neurology.
[118] P. Clarke,et al. Nicotinic binding in rat brain: autoradiographic comparison of [3H]acetylcholine, [3H]nicotine, and [125I]-alpha-bungarotoxin , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[119] I. White,et al. A lever-release version of the conditioned avoidance response paradigm: Effects of haloperidol, clozapine, sulpiride, and BMY-14802 , 1992, Pharmacology Biochemistry and Behavior.
[120] P. Reiner,et al. Membrane properties of mesopontine cholinergic neurons studied with the whole-cell patch-clamp technique: implications for behavioral state control. , 1992, Journal of neurophysiology.
[121] A M Graybiel,et al. The afferent and efferent connections of the feline nucleus tegmenti pedunculopontinus, pars compacta , 1983, The Journal of comparative neurology.
[122] Peter Redgrave,et al. Superior colliculus and visual neglect in rat and hamster. III. functional implications , 1984, Brain Research Reviews.
[123] J. V. van Rossum,et al. Ergometrine induced locomotor activity following intracerebral injection into the nucleus accumbens. , 1973, Brain research.
[124] J. Fuster. The Prefrontal Cortex , 1997 .
[125] H. Fibiger,et al. The nucleus basalis magnocellularis: The origin of a cholinergic projection to the neocortex of the rat , 1980, Neuroscience.
[126] Y. Lai,et al. Muscle tone suppression and stepping produced by stimulation of midbrain and rostral pontine reticular formation , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[127] A. C. Cuello,et al. Cholinergic projections from the midbrain and pons to the thalamus in the rat, identified by combined retrograde tracing and choline acetyltransferase immunohistochemistry , 1985, Brain Research.
[128] M. Steriade,et al. Brainstem Control of Wakefulness and Sleep , 1990, Springer US.
[129] T. Robbins,et al. Dissociable effects on spatial maze and passive avoidance acquisition and retention following AMPA- and ibotenic acid-induced excitotoxic lesions of the basal forebrain in rats: Differential dependence on cholinergic neuronal loss , 1991, Neuroscience.
[130] P. Seeburg. The TINS/TiPS Lecture the molecular biology of mammalian glutamate receptor channels , 1993, Trends in Neurosciences.
[131] H. Fibiger,et al. Cholinergic neurons of the laterodorsal tegmental nucleus: Efferent and afferent connections , 1986, The Journal of comparative neurology.
[132] J. Iles,et al. The mesencephalic centre controlling locomotion in the rat , 1989, Neuroscience.
[133] Mircea Steriade,et al. Central core modulation of spontaneous oscillations and sensory transmission in thalamocortical systems , 1993, Current Opinion in Neurobiology.
[134] P. Teitelbaum,et al. Handbook of Behavioral Neurobiology: Vol. 6. Motivation , 1984 .
[135] H. Kita,et al. Efferent projections of the subthalamic nucleus in the rat: Light and electron microscopic analysis with the PHA‐L method , 1987, The Journal of comparative neurology.
[136] G. Aston-Jones,et al. Nicotinic effects on the firing pattern of midbrain dopamine neurons. , 1986, Acta physiologica Scandinavica.
[137] M. Carpenter,et al. Projections of the globus pallidus and adjacent structures: An autoradiographic study in the monkey , 1976, The Journal of comparative neurology.
[138] A. Jackson,et al. Subthalamic projection to nucleus tegmenti pedunculopontinus in the rat , 1981, Neuroscience Letters.
[139] A M Graybiel,et al. Direct and indirect preoculomotor pathways of the brainstem: An autoradiographic study of the pontine reticular formation in the cat , 1977, The Journal of comparative neurology.
[140] T. Hattori,et al. Organization and efferent projections of nucleus tegmenti pedunculopontinus pars compacta with special reference to its cholinergic aspects , 1984, Neuroscience.
[141] Y. Smith,et al. Synaptic organization of gabaergic inputs from the striatum and the globus pallidus onto neurons in the substantia nigra and retrorubral field which project to the medullary reticular formation , 1992, Neuroscience.
[142] A. Kelley,et al. The role of D1 and D2 dopamine receptors in oral stereotypy induced by dopaminergic stimulation of the ventrolateral striatum , 1990, Neuroscience.
[143] C. Saper,et al. Medullary and spinal efferents of the pedunculopontine tegmental nucleus and adjacent mesopontine tegmentum in the rat , 1988, The Journal of comparative neurology.
[144] W. Foote,et al. The efferent connection of the nucleus raphe dorsalis , 1976, Brain Research.
[145] P. G. Smelik,et al. Role of nigro-neostriatal dopaminergic fibers in compulsive gnawing behavior in rats. , 1966, Life sciences.
[146] B J Richmond,et al. Lateral geniculate neurons in behaving primates. I. Responses to two-dimensional stimuli. , 1991, Journal of neurophysiology.
[147] S. Hernández-López,et al. A cholinergic input to the substantia nigra pars compacta increases striatal dopamine metabolism measured by in vivo voltammetry , 1992, Brain Research.
[148] L. W. Swanson,et al. Evidence for a projection from the lateral preoptic area and substantia innominata to the ‘mesencephalic locomotor region’ in the rat , 1984, Brain Research.
[149] T. Hattori,et al. Separate neuronal populations of the rat globus pallidus projecting to the subthalamic nucleus, auditory cortex and pedunculopontine tegmental area , 1992, Neuroscience.
[150] D. Joel,et al. The organization of the basal ganglia-thalamocortical circuits: Open interconnected rather than closed segregated , 1994, Neuroscience.
[151] D. Paré,et al. Short-lasting nicotinic and long-lasting muscarinic depolarizing responses of thalamocortical neurons to stimulation of mesopontine cholinergic nuclei. , 1991, Journal of neurophysiology.
[152] H. Fibiger,et al. Afferent connections of the laterodorsal and the pedunculopontine tegmental nuclei in the rat: A retro‐ and antero‐grade transport and immunohistochemical study , 1992, The Journal of comparative neurology.
[153] R. Roth,et al. Extracellular dopamine and neurotensin in rat prefrontal cortex in vivo: effects of median forebrain bundle stimulation frequency, stimulation pattern, and dopamine autoreceptors , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[154] T. Hattori,et al. Single subthalamic nucleus neurons project to both the globus pallidus and substantia nigra in rat , 1980, The Journal of comparative neurology.
[155] Mircea Steriade,et al. Brain cholinergic systems , 1990 .
[156] P. Winn,et al. Outflow from the nucleus accumbens to the pedunculopontine tegmental nucleus: A dissociation between locomotor activity and the acquisition of responding for conditioned reinforcement stimulated by d-amphetamine , 1994, Neuroscience.
[157] A. Levey,et al. The origins of cholinergic and other subcortical afferents to the thalamus in the rat , 1987, The Journal of comparative neurology.
[158] H. Vanegas,et al. Comparative neurology of the optic tectum , 1984 .
[159] P. Redgrave,et al. Feeding following microinjection of cholinergic substances into substantia nigra. , 1979, Life sciences.
[160] L. Swanson,et al. Neural projections from nucleus accumbens to globus pallidus, substantia innominata, and lateral preoptic-lateral hypothalamic area: an anatomical and electrophysiological investigation in the rat , 1983, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[161] H. Kimura,et al. Histochemical mapping of nitric oxide synthase in the rat brain , 1992, Neuroscience.
[162] A. Parent,et al. Pedunculopontine nucleus in the squirrel monkey: Cholinergic and glutamatergic projections to the substantia nigra , 1994, The Journal of comparative neurology.
[163] D. van der Kooy,et al. A single brain stem substrate mediates the motivational effects of both opiates and food in nondeprived rats but not in deprived rats. , 1992, Behavioral neuroscience.
[164] E. Melamed,et al. Stimulation of nigrostriatal dopamine neurones by nicotine , 1982, Neuropharmacology.
[165] G. Arbuthnott,et al. Amphetamine‐Induced Dopamine Release in the Rat Striatum: An In Vivo Microdialysis Study , 1988, Journal of neurochemistry.
[166] W. Nauta,et al. Efferent connections of the substantia nigra and ventral tegmental area in the rat , 1979, Brain Research.
[167] R. Mucha,et al. Conditioned increases in locomotor activity produced with morphine as an unconditioned stimulus, and the relation of conditioning to acute morphine effect and tolerance. , 1981, Journal of comparative and physiological psychology.
[168] D. van der Kooy,et al. Chronic exposure to morphine does not alter the neural tissues subserving its acute rewarding properties: apparent tolerance is overshadowing. , 1992, Behavioral neuroscience.
[169] W. Oertel,et al. Immunocytochemical studies of GABAergic neurons in rat basal ganglia and their relations to other neuronal systems , 1984, Neuroscience Letters.
[170] K. Semba,et al. Colocalization of ionotropic glutamate receptor subunits with NADPH‐diaphorase‐containing neurons in the rat mesopontine tegmentum , 1996, The Journal of comparative neurology.
[171] K. Semba,et al. An ultrastructural study of cholinergic and non-cholinergic neurons in the laterodorsal and pedunculopontine tegmental nuclei in the rat , 1995, Neuroscience.
[172] A. McIntosh,et al. Network interactions among limbic cortices, basal forebrain, and cerebellum differentiate a tone conditioned as a Pavlovian excitor or inhibitor: fluorodeoxyglucose mapping and covariance structural modeling. , 1994, Journal of neurophysiology.
[173] S. Iversen,et al. Amphetamine and apomorphine responses in the rat following 6-OHDA lesions of the nucleus accumbens septi and corpus striatum , 1975, Brain Research.
[174] R. Norgren,et al. Afferent projections to the oral motor nuclei in the rat , 1983, The Journal of comparative neurology.
[175] J. Cornwall,et al. Afferent and efferent connections of the laterodorsal tegmental nucleus in the rat , 1990, Brain Research Bulletin.
[176] J. Clark,et al. The regulation of feeding and drinking in rats with lesions of the lateral hypothalamus made byN-methyl-d-aspartate , 1991, Neuroscience.
[177] G. Mogenson,et al. Association of the mesencephalic locomotor region with locomotor activity induced by injections of amphetamine into the nucleus accumbens , 1985, Brain Research.
[178] A. Levey,et al. Cholinergic vs. noncholinergic efferents from the mesopontine tegmentum to the extrapyramidal motor system nuclei , 1988, The Journal of comparative neurology.
[179] J. Bolam,et al. Monosynaptic innervation of trigeminal motor neurones involved in mastication by neurones of the parvicellular reticular formation , 1993, The Journal of comparative neurology.
[180] D. Kooy,et al. Separate non-cholinergic descending projections and cholinergic ascending projections from the nucleus tegmenti pedunculopontinus , 1988, Brain Research.
[181] M. L. Shik,et al. On the descending control of the lumbosacral spinal cord from the "mesencephalic locomotor region". , 1973, Acta physiologica Scandinavica.
[182] E Garcia-Rill,et al. Locomotor projections from the pedunculopontine nucleus to the medioventral medulla. , 1990, Neuroreport.
[183] K. Jellinger,et al. Brain dopamine and the syndromes of Parkinson and Huntington. Clinical, morphological and neurochemical correlations. , 1973, Journal of the neurological sciences.
[184] Y. Smith,et al. Topographical and Synaptic Organization of the GABA‐Containing Pallidosubthalamic Projection in the Rat , 1990, The European journal of neuroscience.
[185] Z. Henderson,et al. Distribution of choline acetyltransferase immunoreactive axons and terminals in the rat and ferret brainstem , 1991, The Journal of comparative neurology.
[186] David A. McCormick,et al. Acetylcholine induces burst firing in thalamic reticular neurones by activating a potassium conductance , 1986, Nature.
[187] C. Hammond,et al. Anatomical and electrophysiological studies on the reciprocal projections between the subthalamic nucleus and nucleus tegmenti pedunculopontinus in the rat , 1983, Neuroscience.
[188] G. Paxinos,et al. The Rat Brain in Stereotaxic Coordinates , 1983 .
[189] W. Essman,et al. Current Developments in Psychopharmacology , 2012, Current Developments in Psychopharmacology.