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1 | What has Stereotactic Surgery Taught Us About Basal Ganglia Function? | 3 |
2 | Pathophysiology of the Internal Segment of the Globus Pallidus in Parkinson's Disease: What Have We Learned from Surgery? | 15 |
3 | Apomorphine Responses in Globus Pallidus and Subthalamus of Parkinsonian Patients Undergoing Stereotaxic Neurosurgery: Lack of Evidence for the So-Called Indirect Pathway | 23 |
4 | Neuronal Activity of GPe in Parkinson's Disease: Is It Really Hypoactive? | 33 |
5 | Acute Effects of Levodopa and Pallidotomy on Bimanual Repetitive Arm Movements in Patients With Parkinson's Disease | 43 |
6 | Tremor in Parkinson's Disease: A Simplification in Network Dynamics? | 51 |
7 | Visuo-spatial Attention in Non-demented Patients with Parkinson's Disease: An Event-related Potential Study | 61 |
8 | Neuronal Intranuclear Inclusions in Neostriatal Striosomes and Matrix in Huntington's Disease | 83 |
9 | Probing Striatal Function in Obsessive Compulsive Disorder: Neuroimaging Studies of Implicit Sequence Learning | 87 |
10 | Evolution of the Multiunit Activity of the Basal Ganglia in the Course of Dynamic Experimental Parkinsonism | 97 |
11 | Evidence for Neuronal Dysfunction in a Mouse Model of Early Stages of Huntington's Disease | 107 |
12 | Effects of GDNF on Nigrostriatal Dopamine Neurons: Experience from Rodent Models of Parkinson's Disease | 117 |
13 | A Role for the Vesicular Monoamine Transporter (VMAT2) in Parkinson's Disease | 131 |
14 | Quantitative Analysis and Behavioural Correlates of Lesioning of the Subthalamic Nucleus in the Hemiparkisonian Marmoset | 139 |
15 | Effects of Reversible Blockade of Pedunculopontine Tegmental Nucleus on Voluntary Arm Movement in Monkey | 151 |
16 | Differential Reductions in Dopaminergic Innervation of the Motor-related Areas of the Frontal Lobe in MPTP-treated Monkeys | 159 |
17 | Control of Epileptic Seizures: Another Function for the Basal Ganglia? | 169 |
18 | Surround Inhibition in the Basal Ganglia: A Brief Review | 181 |
19 | Surround Inhibition in the Basal Ganglia | 187 |
20 | Information Processing in the Cortico-Striato-Nigral Circuits of the Rat Basal Ganglia: Anatomical and Neurophysiological Aspects | 199 |
21 | The Control of Spiking by Snaptic Input in Striatal and Pallidal Neurons | 209 |
22 | Excitatory Cortical Inputs to Pallidal Neurons Through the Cortico-Subthalamo-Pallidal Hyperdirect Pathway in the Monkey | 217 |
23 | TANs, PANs, and STANs | 225 |
24 | Dopamine and Ensemble Coding in the Striatum and Nucleus Accumbens: A Coincidence Detection Mechanism | 237 |
25 | Neuronal Firing Patterns in the Subthalamic Nucleus: Effects of Dopamine Receptor Stimulation on Multisecond Oscillations | 245 |
26 | Selection and the Basal Ganglia: A Role for Dopamine | 257 |
27 | Movement Inhibition and Next Sensory State Prediction in the Basal Ganglia | 267 |
28 | Basal Ganglia Neural Coding of Natural Action Sequences | 279 |
29 | Activity of the Putamenal Neurons in the Monkey During the Sequential Stages of the Behavioural Task | 289 |
30 | Learning-Selective Changes in Activity of the Basal Ganglia | 297 |
31 | Cognitive Decision Processes and Functional Characteristics of the Basal Ganglia Reward System | 303 |
32 | A Partial Dopamine Lesion Impairs Performance on a Procedural Learning Task: Implications for Parkinson's Disease | 311 |
33 | Neurochemical Evidence that Mesolimbic Noradrenaline Directs Mesolimbic Dopamine, Implying That Noradrenaline, Like Dopamine, Plays a Key Role in Goal-directed and Motivational Behavior | 323 |
34 | Tonically Active Neurons in the Striatum of the Monkey Rapidly Signal a Switch in Behavioral Set | 335 |
35 | Tonically Active Neurons in the Monkey Striatum Are Sensitive to Sensory Events in a Manner That Reflects Their Predictability in Time | 347 |
36 | Distribution of Substantia Nigra Pars Compacta Neurons With Respect to Pars Reticulata Striato-Nigral Afferences: Computer-assisted Three-dimensional Reconstructions | 359 |
37 | The Immunocytochemical Localization of Tyrosine Hydroxylase in the Human Striatum and Substantia Nigra: A Postmortem Ultrastructural Study | 369 |
38 | Dendritic Changes in Medium Spiny Neurons of the Weaver Striatum: A Golgi Study | 379 |
39 | Early Corticostriatal Projections and Development of Striatal Patch/Matrix Organization | 385 |
40 | Re-evaluation of Markers for the Patch-Matrix Organization of the Rat Striatum: Core and Shell in the Striatum | 393 |
41 | Physiological and Morphological Classification of Single Neurons in Barrel Cortex with Axons in Neostriatum | 399 |
42 | The Enkephalin-expressing Cells of the Rodent Globus Pallidus | 411 |
43 | Corticostriatal Projections From the Cingulate Motor Areas in the Macaque Monkey | |
44 | Superficial and Deep Thalamo-Cortical Projections From the Oral Part of the Ventral Lateral Thalamic Nucleus (VLo) Receiving Inputs to the Internal Pallidal Segment (GPi) and Cerebellar Dentate Nucleus in the Macaque Monkey | 429 |
45 | Morphological and Electrophysiological Studies of Substantia Nigra, Tegmental Pedunculopontine Nucleus and Subthalamus in Organotypic Co-Culture | 437 |
46 | Distribution of the Basal Ganglia and Cerebellar Projections to the Rodent Motor Thalamus | 455 |
47 | Effects of Dopamine Receptor Stimulation on Single Unit Activity in the Basal Ganglia | 465 |
48 | Immunocytochemical Characterization of Catecholaminergic Neurons in the Rat Striatum Following Dopamine Depleting Lesions | 477 |
49 | Actions of Dopamine on the Rat Striatal Cholinergic Interneurons | 489 |
50 | Effect of Different Dopaminergic Agonists on the Activity of Pallidal Neurons in the Normal Monkey | 499 |
51 | D[subscript 2] Dopamine Receptor-deficient Mutant Mice: New Tools to Tease Apart Receptor Subtype Electrophysiology | 507 |
52 | Antipsychotic Drug-induced Muscle Rigidity and D[subscript 2] Receptor Occupancy in the Basal Ganglia of the Rat | 519 |
53 | Differential Modulation of Single-Unit Activity in the Striatum of Freely Behaving Rats by D1 and D2 Dopamine Receptors | 527 |
54 | The Relationship of Dopamine Agonist-induced Rotation to Firing Rate Changes in the Basal Ganglia Output Nuclei | 537 |
55 | Firing Patterns of Single Nucleus Accumbens Neurons During Intravenous Cocaine Self-Adminstration Sessions | 547 |
56 | Immediate Early Gene (IEG) Induction in the Basal Ganglia upon Electrial Stimulation of the Cerebral Cortex: Involvement of the MAPkinese Pathway IEG Induction upon Cortico-Striatal Stimulation | |
57 | Subsynaptic Localization of Group I Metabotropic Glutamate Receptors in the Basal Ganglia | 567 |
58 | Localization and Physiological Roles of Metabotropic Glutamate Receptors in the Indirect Pathway | 581 |
59 | Nicotine Affects Striatal Glutamatergic Function in 6-OHDA Lesioned Rats | 589 |
60 | Subcellular and Subsynaptic Localization of Glutamate Transporters in the Monkey Basal Ganglia | 599 |
61 | Glutamate-Dopamine Interactions in Striatum and Nucleus Accumbens of the Conscious Rat during Aging | 615 |
62 | The Immunohistochemical Localisation of GABA[subscript A] Receptor Subunits in the Human Striatum | 623 |
63 | Synaptic Localization of GABA[subscript A] Receptor Subunits in the Basal Ganglia of the Rat | 631 |
64 | Afferent Control of Nigral Dopaminergic Neurons: The Role of GABAergic Inputs | 641 |
65 | The Role of Striatal Adenosine A[subscript 2A] Receptors in Motor Control of Rats | 653 |
66 | A Novel Neuromodulator in Basal Ganglia | 661 |
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