| DBS in Parkinsonian Subthalamic Nucleus: Electrophysiological and Biochemical Changes | p. 3 |
| Action Selection in Parkinsonian Akinesia | p. 13 |
| Different Patterns of Behavior and Gene Expression Induced by Chronic L-DOPA and A[subscript 2A] Antagonists Plus L-DOPA Treatments in 6-Hydroxydopamine Lesioned Rats | p. 19 |
| Synchronization of Pallidal Activity in the MPTP Primate Model of Parkinsonism is not Limited to Oscillatory Activity | p. 29 |
| The High Frequency Discharge of Pallidal Neurons Disrupts the Interpretation of Pallidal Correlation Functions | p. 35 |
| The Role of Opioid Receptors in L-DOPA Induced Dyskinesia | p. 43 |
| Coding of Behavioral Sequences in the Basal Ganglia | p. 53 |
| Protection Against Nigrostriatal Dopamine Cell Death by Pedunculopontine Tegmental Nucleus Lesions | p. 67 |
| Influence of Deep Brain Stimulation on Striatal Dopamine Release and Metabolism in the 6-OHDA-Model of Parkinson's Disease | p. 77 |
| Heterogeneity of Dopamine Release in the Primate Striatum | p. 87 |
| Enhanced Synchrony in the Primary Motor Cortex of MPTP Primates May Underlie Muscle Co-Contraction and Rigidity | p. 97 |
| Dopaminergic System in the Basal Ganglia of Sheep | p. 107 |
| The Roles of Metabotropic Glutamate Receptors in Modulating the Activity of the Subthalamic Nucleus | p. 117 |
| Localisation of Neuronal Nicotinic Acetylcholine Receptor Subunits in Rat Substantia Nigra and Dorsal Striatum | p. 127 |
| Cellular Localisation of the GABA[subscript B] R1 Subunit in the Human Basal Ganglia | p. 137 |
| Partly Converging But Largely Segregated Corticostriatal Projections from the Primary Motor Contex and the Supplementary Motor Area | p. 147 |
| A Single Gene for Dystonia Involves Both or Either of the Two Striatal Pathways | p. 155 |
| Thalamic Stimulation Promotes, While MFB Stimulation Inhibits, Calcium Oscillatory Activity in the Rat Striatum | p. 165 |
| Striatal Tans do not Report Prediction Error | p. 173 |
| False Detection of Dynamic Changes in Pallidal Neuron Interactions by the Joint Peri-Stimulus Histogram Method | p. 181 |
| Core and Shell of the Nucleus Accumbens are Interconnected Via Intrastriatal Projections | p. 191 |
| Hippocampal Regulation of Prefrontal Cortex-Nucleus Accumbens Information Processing | p. 201 |
| Pedunculopontine and Laterodorsal Tegmental Lesion Effects on Drug-Evoked Behaviours and Forebrain Dopamine Efflux | p. 211 |
| New Insights into mGluRs Function in the Substantia Nigra Pars Compacta | p. 223 |
| Metabotropic Glutamate Receptors in the Globus Pallidus | p. 233 |
| Abnormalities of Striatal NMDA Receptor-Mediated Transmission in Parkinson's Disease | p. 243 |
| N-Terminal Tripeptide-1 (GPE) of IGF-1 Prevents the Loss of TH Positive Neurons After 6-OHDA Induced Nigral Lesion in Rats | p. 255 |
| Precise Localisation of 5-HT[subscript 2A] Receptors in the Rat Substantia Nigra | p. 265 |
| Electrophysiological Effects of Cannabinoids in the Basal Ganglia | p. 275 |
| Self-Stimulation and Synaptic Plasticity | p. 299 |
| The Role of Dopamine Receptors in Regulating the Size of Axonal Arbours | p. 313 |
| Responses to Partial Dopaminergic Lesion: Evidence for Compensatory Sprouting from the Ventral Striatum | p. 323 |
| Structural Plasticity in Parkinson's Disease | p. 333 |
| Blood Vessels and Neurodegeneration in Parkinson's Disease | p. 341 |
| The Robot Basal Ganglia | p. 349 |
| Functional Interactions Within the Subthalamic Nucleus | p. 357 |
| The Functional Organisation of the Basal Ganglia: New Insights from Anatomical and Physiological Analyses | p. 371 |
| Somatosensory Activation and Tissue Compartments in the Human Striatum | p. 379 |
| A Physiological Investigation of the Two Corticostriatal Systems in Rat Somatosensory Striatum | p. 389 |
| Synaptic Convergence of Hippocampal and Prefrontal Cortical Afferents to the Ventral Striatum in Rat | p. 399 |
| Anatomical and Functional Relationships Between Intralaminar Thalamic Nuclei and Basal Ganglia in Monkeys | p. 409 |
| Local Connectivity Between Striatal Spiny Projection Neurons: A Re-evaluation | p. 421 |
| Distribution of Pontomesencephalic Neurons Projecting to the Medullary Reticular Areas and Spinal Cord in Relation to the Pedunculopontine Nucleus in the Monkey | p. 435 |
| Impact of Slow Cortical Rhythms on Basal Ganglia Output Nuclei Activity in Experimental Parkinsonism | p. 445 |
| Lesions of the Rat Globus Pallidus, Which Increase Subthalamic Nucleus Activity, Cause Dopamine Cell Death | p. 457 |
| Progressive Neurodegeneration in a New Mouse Model of Parkinson's Disease | p. 465 |
| Striosome and Matrix Pathology in Huntington Disease | p. 475 |
| Immunohistochemical Localisation of Tata-Binding Protein in Huntington's Disease Cortex | p. 481 |
| Transcriptional Dysregulation in Huntington's Disease | p. 491 |
| The Role of Basal Ganglia in Visuo-Motor Coordination, Insights from Different Disease Conditions | p. 501 |
| Torsina Immunoreactivity in Normal and Dyt1 Brain | p. 511 |
| Anatomo-Chemical Organization of the Basal Ganglia Circuitry in the Normal and Parkinsonian States | p. 521 |
| Which Basal Ganglia Surgical Targets Ameliorate Parkinsonian Symptoms? | p. 533 |
| Effects of Pallidotomy and STN Simulation on Reaching and Walking in Parkinson Disease | p. 543 |
| Continuous Stimulation of the Globus Pallidus and Subthalamic Nucleus in Parkinson's Disease | p. 553 |
| Effects of High Frequency Stimulation in the Subthalamic Nucleus on Neuronal Firing in Parkinson's Disease Patients | p. 563 |
| High Frequency Stimulation of the Subthalamic Nucleus in Intact and Hemiparkinsonian Rats | p. 573 |
| Neurochemical Modifications Induced by High Frequency Stimulation of the Subthalamic Nucleus in Rats | p. 581 |
| Inactivating the Subthalamic Nucleus in the Rat Induces Various Cognitive Deficits and Motivational Exacerbation | p. 591 |
| Responses of Neurons in Subthalamic Nucleus During Sequential Reaching in Patients with Parkinson's Disease | p. 603 |
| Pallidothalamic Relation in Parkinson's Disease-Microrecording Study | p. 611 |
| Author Index | p. 617 |
| Subject Index | p. 621 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
