The organization of the basal ganglia-thalamocortical circuits: Open interconnected rather than closed segregated
暂无分享,去创建一个
[1] E. Jones,et al. Retrograde axonal transport and the demonstration of non‐specific projections to the cerebral cortex and striatum from thalamic intralaminar nuclei in the rat, cat and monkey , 1974, The Journal of comparative neurology.
[2] J. Price,et al. The cortical projections of the mediodorsal nucleus and adjacent thalamic nuclei in the rat , 1977, The Journal of comparative neurology.
[3] H. Fibiger,et al. Anterior striatal projections to the globus pallidus, entopeduncular nucleus and substantia nigra in the rat: The GABA connection , 1978, Brain Research.
[4] D. Carter,et al. The projections of the entopeduncular nucleus and globus pallidus in rat as demonstrated by autoradiography and horseradish peroxidase histochemistry , 1978, The Journal of comparative neurology.
[5] G. P. Smith,et al. Efferent connections and nigral afferents of the nucleus accumbens septi in the rat , 1978, Neuroscience.
[6] M. Herkenham. The afferent and efferent connections of the ventromedial thalamic nucleus in the rat , 1979, The Journal of comparative neurology.
[7] H. Nauta. A proposed conceptual reorganization of the basal ganglia and telencephalon , 1979, Neuroscience.
[8] R. M. Beckstead. An autoradiographic examination of corticocortical and subcortical projections of the mediodorsal‐projection (prefrontal) cortex in the rat , 1979, The Journal of comparative neurology.
[9] H. Kuypers,et al. The organization of the efferent projections of the substantia nigra in the rat. A retrograde fluorescent double labeling study , 1979, Brain Research.
[10] A. Cools. Role of the neostriatal dopaminergic activity in sequencing and selecting behavioural strategies: Facilitation of processes involved in selecting the best strategy in a stressful situation , 1980, Behavioural Brain Research.
[11] G. Mogenson,et al. Nucleus accumbens to globus pallidus GABA projection: Electrophysiological and iontophoretic investigations , 1980, Brain Research.
[12] M. Herkenham. Laminar organization of thalamic projections to the rat neocortex. , 1980, Science.
[13] Douglas L. Jones,et al. From motivation to action: Functional interface between the limbic system and the motor system , 1980, Progress in Neurobiology.
[14] L. W. Swanson,et al. Neural mechanisms for the functional coupling of autonomic, endocrine and somatomotor responses in adaptive behavior , 1981, Brain Research Reviews.
[15] D. Kooy,et al. The organization of the efferent projections and striatal afferents of the entopeduncular nucleus and adjacent areas in the rat , 1981, Brain Research.
[16] C. Gerfen,et al. Crossed connections of the substantia nigra in the rat , 1982, The Journal of comparative neurology.
[17] C. Marsden. The mysterious motor function of the basal ganglia , 1982, Neurology.
[18] L. Heimer,et al. Ventral striatum and ventral pallidum Components of the motor system? , 1982, Trends in Neurosciences.
[19] J. Donoghue,et al. Afferent connections of the lateral agranular field of the rat motor cortex , 1983, The Journal of comparative neurology.
[20] 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.
[21] J. Penney,et al. Speculations on the functional anatomy of basal ganglia disorders. , 1983, Annual review of neuroscience.
[22] W. Nauta,et al. Ramifications of the globus pallidus in the rat as indicated by patterns of immunohistochemistry , 1983, Neuroscience.
[23] A. Parent,et al. The striatopallidal and striatonigral projections: two distinct fiber systems in primate , 1984, Brain Research.
[24] A. Cools,et al. Caudate nucleus and programming behaviour in cats: Role of dopamine in switching motor patterns , 1984, Behavioural Brain Research.
[25] W. Nauta,et al. Afferent and efferent relationships of the basal ganglia. , 1984, Ciba Foundation symposium.
[26] J. Girault,et al. Adaptive reaction of nigral neurons following lesion of their ventromedial-thalamic projection field , 1984, Brain Research.
[27] F E Bloom,et al. The organization of projections from the cortes, amygdala, and hypothalamus to the nucleus of the solitary tract in rat , 1984, The Journal of comparative neurology.
[28] P. Strick,et al. The origin of thalamic inputs to the arcuate premotor and supplementary motor areas , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[29] C. Gerfen. The neostriatal mosaic: compartmentalization of corticostriatal input and striatonigral output systems , 1984, Nature.
[30] M. Horstink,et al. Cognitive and motor shifting aptitude disorder in Parkinson's disease. , 1984, Journal of neurology, neurosurgery, and psychiatry.
[31] A M Graybiel,et al. Neurochemically specified subsystems in the basal ganglia. , 2008, Ciba Foundation symposium.
[32] J. Féger,et al. Identification of different subpopulations of neostriatal neurones projecting to globus pallidus or substantia nigra in the monkey: A retrograde fluorescence double-labelling study , 1984, Neuroscience Letters.
[33] G. E. Alexander,et al. Functional organization of the basal ganglia: contributions of single-cell recording studies. , 1984, Ciba Foundation symposium.
[34] Atsutaka Hashimoto,et al. Afferent connections of medial precentral cortex in the rat , 1984, Neuroscience Letters.
[35] Bryan Kolb,et al. Functions of the frontal cortex of the rat: A comparative review , 1984, Brain Research Reviews.
[36] R. Rieck,et al. Organization of the rostral thalamus in the rat: Evidence for connections to layer I of visual cortex , 1985, The Journal of comparative neurology.
[37] P. Césaro,et al. Single intralaminar thalamic neurons project to cerebral cortex, striatum and nucleus reticularis thalami. A retrograde anatomical tracing study in the rat , 1985, Brain Research.
[38] J. Fuster. The path to action , 1985, Behavioral and Brain Sciences.
[39] A. R. Cools,et al. Brain and Behavior: Hierarchy of Feedback Systems and Control of Input , 1985 .
[40] W. Nauta,et al. Efferent connections of the ventral pallidum: Evidence of a dual striato pallidofugal pathway , 1985, The Journal of comparative neurology.
[41] P. Goldman-Rakic,et al. Organization of the nigrothalamocortical system in the rhesus monkey , 1985, The Journal of comparative neurology.
[42] P. Goldman-Rakic,et al. The primate mediodorsal (MD) nucleus and its projection to the frontal lobe , 1985, The Journal of comparative neurology.
[43] C. Gerfen. The neostriatal mosaic. I. compartmental organization of projections from the striatum to the substantia nigra in the rat , 1985, The Journal of comparative neurology.
[44] P. Goldman-Rakic,et al. Longitudinal topography and interdigitation of corticostriatal projections in the rhesus monkey , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[45] E. Garcia-Rill. The basal ganglia and the locomotor regions , 1986, Brain Research Reviews.
[46] G. E. Alexander,et al. Parallel organization of functionally segregated circuits linking basal ganglia and cortex. , 1986, Annual review of neuroscience.
[47] A. Parent,et al. Differential connections of caudate nucleus and putamen in the squirrel monkey (Saimiri sciureus) , 1986, Neuroscience.
[48] F. Cicirata,et al. Functional organization of thalamic projections to the motor cortex. An anatomical and electrophysiological study in the rat , 1986, Neuroscience.
[49] E. Neafsey,et al. The topographical organization of neurons in the rat medial frontal, insular and olfactory cortex projecting to the solitary nucleus, olfactory bulb, periaqueductal gray and superior colliculus , 1986, Brain Research.
[50] H. Grill,et al. Gustatory cortex in the rat. I. Physiological properties and cytoarchitecture , 1986, Brain Research.
[51] E. Neafsey,et al. The medial frontal cortex and gastric motility: Microstimulation results and their possible significance for the overall pattern of organization of rat frontal and parietal cortex , 1986, Brain Research.
[52] J. C. Fentress,et al. Disruption of natural grooming chains after striatopallidal lesions , 1987, Psychobiology.
[53] J. Gray,et al. Don't leave the “psych” out of neuropsychology , 1987, Behavioral and Brain Sciences.
[54] J. Glowinski,et al. Interhemispheric and subcortical collaterals of medial prefrontal cortical neurons in the rat , 1987, Brain Research.
[55] D. Amaral,et al. The afferent input to the magnocellular division of the mediodorsal thalamic nucleus in the monkey, Macaca fascicularis , 1987, The Journal of comparative neurology.
[56] Goldman-Rakic Ps,et al. Motor control function of the prefrontal cortex. , 1987 .
[57] G Rizzolatti,et al. Functional organization of inferior area 6. , 1987, Ciba Foundation symposium.
[58] K. Kultas‐Ilinsky,et al. Sagittal cytoarchitectonic maps of the Macaca mulatta thalamus with a revised nomenclature of the motor‐related nuclei validated by observations on their connectivity , 1987, The Journal of comparative neurology.
[59] R. Kesner,et al. Neurobiology of an attribute model of memory , 1987 .
[60] M Wiesendanger,et al. Input and output organization of the supplementary motor area. , 1987, Ciba Foundation symposium.
[61] N. Swerdlow,et al. Dopamine, schizophrenia, mania, and depression: Toward a unified hypothesis of cortico-striatopallido-thalamic function , 1987, Behavioral and Brain Sciences.
[62] C. Gerfen,et al. The neostriatal mosaic: II. Patch- and matrix-directed mesostriatal dopaminergic and non-dopaminergic systems , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[63] G. Leichnetz,et al. Frontal projections to the region of the oculomotor complex in the rat: A retrograde and anterograde HRP study , 1987, The Journal of comparative neurology.
[64] M. Moss,et al. Basal forebrain efferents to the medial dorsal thalamic nucleus in the rhesus monkey , 1988, The Journal of comparative neurology.
[65] P S Goldman-Rakic,et al. Mediodorsal nucleus: Areal, laminar, and tangential distribution of afferents and efferents in the frontal lobe of rhesus monkeys , 1988, The Journal of comparative neurology.
[66] P. Goldman-Rakic. Topography of cognition: parallel distributed networks in primate association cortex. , 1988, Annual review of neuroscience.
[67] L. Heimer,et al. New perspectives in basal forebrain organization of special relevance for neuropsychiatric disorders: The striatopallidal, amygdaloid, and corticopetal components of substantia innominata , 1988, Neuroscience.
[68] L. Heimer,et al. Ventral striatopallidal parts of the basal ganglia in the rat: I. Neurochemical compartmentation as reflected by the distributions of neurotensin and substance P immunoreactivity , 1988, The Journal of comparative neurology.
[69] R. Passingham,et al. Premotor cortex in the rat. , 1988, Behavioral neuroscience.
[70] H. Groenewegen. Organization of the afferent connections of the mediodorsal thalamic nucleus in the rat, related to the mediodorsal-prefrontal topography , 1988, Neuroscience.
[71] D. Zahm. The ventral striatopallidal parts of the basal ganglia in the rat—II. Compartmentation of ventral pallidal efferents , 1989, Neuroscience.
[72] J. Penney,et al. The functional anatomy of basal ganglia disorders , 1989, Trends in Neurosciences.
[73] A. Parent,et al. Distinct afferents to internal and external pallidal segments in the squirrel monkey , 1989, Neuroscience Letters.
[74] R. Roth,et al. Topographical organization of the efferent projections of the medial prefrontal cortex in the rat: An anterograde tract‐tracing study with Phaseolus vulgaris leucoagglutinin , 1989, The Journal of comparative neurology.
[75] Anders Fink-Jensen,et al. The striato-entopeduncular pathway in the rat. A retrograde transport study with wheatgerm-agglutinin-horseradish peroxidase , 1989, Brain Research.
[76] C. Gerfen. The neostriatal mosaic: striatal patch-matrix organization is related to cortical lamination. , 1989, Science.
[77] A. Mcgeorge,et al. The organization of the projection from the cerebral cortex to the striatum in the rat , 1989, Neuroscience.
[78] C. Gerfen,et al. Compartmental organization of the ventral striatum of the rat: Immunohistochemical distribution of enkephalin, substance P, dopamine, and calcium‐binding protein , 1989, The Journal of comparative neurology.
[79] A. Cools,et al. The involvement of the nucleus accumbens in the ability of rats to switch to cue-directed behaviours. , 1989, Life sciences.
[80] K. Berridge. Substantia nigra 6-OHDA lesions mimic striatopallidal disruption of syntactic grooming chains: A neural systems analysis of sequence control , 1989, Psychobiology.
[81] J. Deniau,et al. Disinhibition as a basic process in the expression of striatal functions , 1990, Trends in Neurosciences.
[82] H. Groenewegen,et al. Organization of the thalamostriatal projections in the rat, with special emphasis on the ventral striatum , 1990, The Journal of comparative neurology.
[83] P. Goldman-Rakic,et al. New frontiers in basal ganglia research , 1990, Trends in Neurosciences.
[84] H. Uylings,et al. Qualitative and quantitative comparison of the prefrontal cortex in rat and in primates, including humans. , 1990, Progress in brain research.
[85] T. Robbins,et al. The Role of the Striatum in the Mental Chronometry of Action: A Theoretical Review , 1990, Reviews in the neurosciences.
[86] S. Haber,et al. Topographic organization of the ventral striatal efferent projections in the rhesus monkey: An anterograde tracing study , 1990, The Journal of comparative neurology.
[87] A. Parent. Extrinsic connections of the basal ganglia , 1990, Trends in Neurosciences.
[88] J M Fuster,et al. Behavioral electrophysiology of the prefrontal cortex of the primate. , 1990, Progress in brain research.
[89] G. E. Alexander,et al. Functional architecture of basal ganglia circuits: neural substrates of parallel processing , 1990, Trends in Neurosciences.
[90] A. Graybiel. Neurotransmitters and neuromodulators in the basal ganglia , 1990, Trends in Neurosciences.
[91] E. Neafsey,et al. Prefrontal cortical control of the autonomic nervous system: anatomical and physiological observations. , 1990, Progress in brain research.
[92] C. Wilson,et al. Projection subtypes of rat neostriatal matrix cells revealed by intracellular injection of biocytin , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[93] H. Groenewegen,et al. The anatomical relationship of the prefrontal cortex with the striatopallidal system, the thalamus and the amygdala: evidence for a parallel organization. , 1990, Progress in brain research.
[94] P. Goldman-Rakic,et al. Topographic intermingling of striatonigral and striatopallidal neurons in the rhesus monkey , 1990, The Journal of comparative neurology.
[95] G. E. Alexander,et al. Basal ganglia-thalamocortical circuits: parallel substrates for motor, oculomotor, "prefrontal" and "limbic" functions. , 1990, Progress in brain research.
[96] T. Jones,et al. Functional subdivisions of the rat somatic sensorimotor cortex , 1990, Behavioural Brain Research.
[97] D. S. Zahm,et al. Two transpallidal pathways originating in the rat nucleus accumbens , 1990, The Journal of comparative neurology.
[98] R. Reep,et al. Topographic organization in the corticocortical connections of medial agranular cortex in rats , 1990, The Journal of comparative neurology.
[99] A. Graybiel,et al. Compartmental origins of the striatopallidal projection in the primate , 1990, Neuroscience.
[100] C. Darian‐Smith,et al. Thalamic projections to sensorimotor cortex in the macaque monkey: Use of multiple retrograde fluorescent tracers , 1990, The Journal of comparative neurology.
[101] H. Groenewegen,et al. Restricted cortical termination fields of the midline and intralaminar thalamic nuclei in the rat , 1991, Neuroscience.
[102] J. Rawlins,et al. The neuropsychology of schizophrenia , 1991, Behavioral and Brain Sciences.
[103] J. D. Bruin. Chapter 24 Social behaviour and the prefrontal cortex , 1991 .
[104] D. Pandya,et al. Prefrontal projections to the mediodorsal nucleus of the thalamus in the rhesus monkey , 1991, The Journal of comparative neurology.
[105] E. Fetz,et al. Neural mechanisms underlying corticospinal and rubrospinal control of limb movements. , 1991, Progress in brain research.
[106] J. Hedreen,et al. Organization of striatopallidal, striatonigral, and nigrostriatal projections in the macaque , 1991, The Journal of comparative neurology.
[107] L. Heimer,et al. "Perestroika" in the basal forebrain: opening the border between neurology and psychiatry. , 1991, Progress in brain research.
[108] O. Hikosaka. Basal ganglia — possible role in motor coordination and learning , 1991, Current Opinion in Neurobiology.
[109] Bryan Kolb,et al. Chapter 25 Animal models for human PFC-related disorders , 1991 .
[110] D. Pandya,et al. Prefrontostriatal connections in relation to cortical architectonic organization in rhesus monkeys , 1991, The Journal of comparative neurology.
[111] Mara Fabri,et al. Ipsilateral cortical connections of primary somatic sensory cortex in rats , 1991, The Journal of comparative neurology.
[112] G. Percheron,et al. Parallel processing in the basal ganglia: up to a point , 1991, Trends in Neurosciences.
[113] H. Barbas,et al. Diverse thalamic projections to the prefrontal cortex in the rhesus monkey , 1991, The Journal of comparative neurology.
[114] J M Fuster,et al. The prefrontal cortex and its relation to behavior. , 1991, Progress in brain research.
[115] D. S. Zahm,et al. Specificity in the projection patterns of accumbal core and shell in the rat , 1991, Neuroscience.
[116] H. Groenewegen,et al. Topographical organization and relationship with ventral striatal compartments of prefrontal corticostriatal projections in the rat , 1992, The Journal of comparative neurology.
[117] D. Buxton,et al. Differential sites of origin and collateralization of corticospinal neurons in the rat: a multiple fluorescent retrograde tracer study , 1992, Brain Research.
[118] J. Deniau,et al. The lamellar organization of the rat substantia nigra pars reticulata: Distribution of projection neurons , 1992, Neuroscience.
[119] H. Groenewegen,et al. Compartmental distribution of ventral striatal neurons projecting to the mesencephalon in the rat , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[120] D. S. Zahm,et al. On the significance of subterritories in the “accumbens” part of the rat ventral striatum , 1992, Neuroscience.
[121] C. Gerfen. The neostriatal mosaic: multiple levels of compartmental organization in the basal ganglia. , 1992, Annual review of neuroscience.
[122] M. Cador. LIMBIC‐STRIATAL INTERACTIONS IN REWARD RELATED PROCESSES: MODULATION BY THE DOPAMINERGIC SYSTEM. , 1992, Clinical neuropharmacology.
[123] A. Parent,et al. The striatopallidal projection displays a high degree of anatomical specificity in the primate , 1992, Brain Research.
[124] S. Haber,et al. Organization of the output of the ventral striatopallidal system in the rat: Ventral pallidal efferents , 1993, Neuroscience.
[125] A. Parent,et al. Anatomical aspects of information processing in primate basal ganglia , 1993, Trends in Neurosciences.
[126] S. Haber,et al. The organization of the descending ventral pallidal projections in the monkey , 1993, The Journal of comparative neurology.
[127] C. Pennartz,et al. The cellular framework for chemical signalling in the nucleus accumbens. , 1993, Progress in brain research.
[128] H. Groenewegen,et al. Anatomical Relationships Between the Prefrontal Cortex and the Basal Ganglia in the Rat , 1994 .