How do cortico-striatal projections impact on downstream pallidal circuitry?
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[1] Suzanne N Haber,et al. Combinatorial Inputs to the Ventral Striatum from the Temporal Cortex, Frontal Cortex, and Amygdala: Implications for Segmenting the Striatum , 2017, eNeuro.
[2] Clement Hamani,et al. Subthalamic Nucleus Deep Brain Stimulation: Basic Concepts and Novel Perspectives , 2017, eNeuro.
[3] Léon Tremblay,et al. Roles of Multiple Globus Pallidus Territories of Monkeys and Humans in Motivation, Cognition and Action: An Anatomical, Physiological and Pathophysiological Review , 2017, Front. Neuroanat..
[4] Suzanne N. Haber,et al. Convergence of prefrontal and parietal anatomical projections in a connectional hub in the striatum , 2017, NeuroImage.
[5] Suzanne N. Haber,et al. Circuit-Based Corticostriatal Homologies Between Rat and Primate , 2016, Biological Psychiatry.
[6] S. Haber,et al. Estimates of Projection Overlap and Zones of Convergence within Frontal-Striatal Circuits , 2014, The Journal of Neuroscience.
[7] Philippe Mailly,et al. The Rat Prefrontostriatal System Analyzed in 3D: Evidence for Multiple Interacting Functional Units , 2013, The Journal of Neuroscience.
[8] Steven P. Wise,et al. Forward frontal fields: phylogeny and fundamental function , 2008, Trends in Neurosciences.
[9] Richard S. J. Frackowiak,et al. Evidence for Segregated and Integrative Connectivity Patterns in the Human Basal Ganglia , 2008, The Journal of Neuroscience.
[10] M. Corbetta,et al. The Reorienting System of the Human Brain: From Environment to Theory of Mind , 2008, Neuron.
[11] Philippe Mailly,et al. Relationship between the corticostriatal terminals from areas 9 and 46, and those from area 8A, dorsal and rostral premotor cortex and area 24c: an anatomical substrate for cognition to action , 2007, The European journal of neuroscience.
[12] S. Haber,et al. Reward-Related Cortical Inputs Define a Large Striatal Region in Primates That Interface with Associative Cortical Connections, Providing a Substrate for Incentive-Based Learning , 2006, The Journal of Neuroscience.
[13] Xiao-Jing Wang,et al. Cortico–basal ganglia circuit mechanism for a decision threshold in reaction time tasks , 2006, Nature Neuroscience.
[14] Robert B. Innis,et al. Effects of Early Life Stress on [11C]DASB Positron Emission Tomography Imaging of Serotonin Transporters in Adolescent Peer- and Mother-Reared Rhesus Monkeys , 2006, The Journal of Neuroscience.
[15] S. Haber. The primate basal ganglia: parallel and integrative networks , 2003, Journal of Chemical Neuroanatomy.
[16] H. Bergman,et al. Information processing, dimensionality reduction and reinforcement learning in the basal ganglia , 2003, Progress in Neurobiology.
[17] W. Mcbride,et al. Alcohol Stimulates the Release of Dopamine in the Ventral Pallidum but not in the Globus Pallidus: A Dual-Probe Microdialysis Study , 2003, Neuropsychopharmacology.
[18] M. Corbetta,et al. Control of goal-directed and stimulus-driven attention in the brain , 2002, Nature Reviews Neuroscience.
[19] Hagai Bergman,et al. Stepping out of the box: information processing in the neural networks of the basal ganglia , 2001, Current Opinion in Neurobiology.
[20] Nikolaus R. McFarland,et al. Striatonigrostriatal Pathways in Primates Form an Ascending Spiral from the Shell to the Dorsolateral Striatum , 2000, The Journal of Neuroscience.
[21] M. Delong,et al. Functional and pathophysiological models of the basal ganglia , 1996, Current Opinion in Neurobiology.
[22] S. Haber,et al. Ventral pallidostriatal pathway in the monkey: Evidence for modulation of basal ganglia circuits , 1996 .
[23] Cynthia G. Wible,et al. Caudate, putamen, and globus pallidus volume in schizophrenia: A quantitative MRI study , 1995, Psychiatry Research: Neuroimaging.
[24] D. Pinault,et al. Single striatofugal axons arborizing in both pallidal segments and in the substantia nigra in primates , 1995, Brain Research.
[25] H. Bergman,et al. Neurons in the globus pallidus do not show correlated activity in the normal monkey, but phase-locked oscillations appear in the MPTP model of parkinsonism. , 1995, Journal of neurophysiology.
[26] M. A. Steinmetz,et al. Neurophysiological evidence for a role of posterior parietal cortex in redirecting visual attention. , 1995, Cerebral cortex.
[27] E. Lynd-Balta,et al. The orbital and medial prefrontal circuit through the primate basal ganglia , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[28] L. Tremblay,et al. Activity of pallidal neurons in the monkey during dyskinesia induced by injection of bicuculline in the external pallidum , 1995, Neuroscience.
[29] A. Graybiel. The basal ganglia , 1995, Trends in Neurosciences.
[30] S. Haber,et al. Primate striatonigral projections: A comparison of the sensorimotor‐related striatum and the ventral striatum , 1994, The Journal of comparative neurology.
[31] A. Parent,et al. Multiple striatal representation in primate substantia nigra , 1994, The Journal of comparative neurology.
[32] S. Haber,et al. The organization of the descending ventral pallidal projections in the monkey , 1993, The Journal of comparative neurology.
[33] A. Parent,et al. The striatopallidal projection displays a high degree of anatomical specificity in the primate , 1992, Brain Research.
[34] M. Raichle,et al. A functional anatomical study of unipolar depression , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[35] J. Hedreen,et al. Organization of striatopallidal, striatonigral, and nigrostriatal projections in the macaque , 1991, The Journal of comparative neurology.
[36] G. Percheron,et al. Parallel processing in the basal ganglia: up to a point , 1991, Trends in Neurosciences.
[37] S. Haber,et al. The relationship between ventral striatal efferent fibers and the distribution of peptide-positive woolly fibers in the forebrain of the rhesus monkey , 1990, Neuroscience.
[38] S. Haber,et al. Evidence for interconnections between the two segments of the globus pallidus in primates: a PHA-L anterograde tracing study , 1990, Brain Research.
[39] 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.
[40] G. Koob,et al. The ventral pallidum plays a role in mediating cocaine and heroin self-administration in the rat , 1990, Brain Research.
[41] J. Penney,et al. The functional anatomy of basal ganglia disorders , 1989, Trends in Neurosciences.
[42] L. Tremblay,et al. Abnormal influences of passive limb movement on the activity of globus pallidus neurons in parkinsonian monkeys , 1988, Brain Research.
[43] Robert M. Beckstead,et al. A pallidostriatal projection in the cat and monkey , 1983, Brain Research Bulletin.
[44] M R Park,et al. An intracellular HRP study of the rat globus pallidus. I. Responses and light microscopic analysis , 1982, The Journal of comparative neurology.
[45] H. Fibiger,et al. Demonstration of a pallidostriatal pathway by retrograde transport of HRP-labeled lectin , 1981, Brain Research.
[46] E. Yeterian,et al. Cortico-striate projections in the rhesus monkey: The organization of certain cortico-caudate connections , 1978, Brain Research.
[47] M. Carpenter,et al. Projections of the globus pallidus and adjacent structures: An autoradiographic study in the monkey , 1976, The Journal of comparative neurology.
[48] M. Carpenter,et al. Organization of pallidothalamic projections in the rhesus monkey , 1973, The Journal of comparative neurology.
[49] H. E. Rosvold,et al. Topographic projections on the globus pallidus and the substantia nigra of selectively placed lesions in the precommissural caudate nucleus and putamen in the monkey. , 1971, Experimental neurology.
[50] T. Powell,et al. The connexions of the striatum and globus pallidus: synthesis and speculation. , 1971, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[51] J. Szabo. Projections from the body of the caudate nucleus in the rhesus monkey. , 1970, Experimental neurology.
[52] J. Szabo,et al. The efferent projections of the putamen in the monkey. , 1967, Experimental neurology.
[53] W. Cowan,et al. Strio-pallidal projection in the monkey. , 1966, Journal of neurology, neurosurgery, and psychiatry.
[54] A. Charara,et al. The striatopallidal fiber system in primates. , 1997, Advances in neurology.
[55] J R Kremer,et al. Computer visualization of three-dimensional image data using IMOD. , 1996, Journal of structural biology.
[56] G. E. Alexander,et al. Functional organization of the basal ganglia: contributions of single-cell recording studies. , 1984, Ciba Foundation symposium.
[57] L. Heimer. The Olfactory Cortex and the Ventral Striatum , 1978 .
[58] M. Carpenter. Anatomical organization of the corpus striatum and related nuclei. , 1976, Research publications - Association for Research in Nervous and Mental Disease.
[59] Carpenter Mb. Anatomical organization of the corpus striatum and related nuclei. , 1976 .
[60] J. Rafols,et al. The primate globus pallidus: a Golgi and electron microscopic study. , 1974, Journal fur Hirnforschung.
[61] J. Szabo,et al. Topical distribution of the striatal efferents in the monkey , 1962 .