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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 |
| Price | Condition | Delivery | Seller | Action |
| $222.00 | Digital |
| WonderClub |
Dan Thombs
reviewed The Basal Ganglia VI, Vol. 6 on November 05, 2015
The Basal Ganglia VI
I read this book over the course of an entire semester of college, as it was assigned for my Ecology, Evolution & Society Biology class. That being said, I am sad to see it come to an end as this semester winds to a close as well. I had begun to look forward to the new piece of evidence or explanation for natural selection that Carroll provided with each new chapter. He presents a myriad of examples in very simplified way, so as to provide readers with an easier and more comprehensive way of understanding the mechanisms of evolution. He does so by utilizing the newest way in which scientists have begun to understand evolution and shared ancestry: through DNA.
With each chapter, Carroll clearly explains the inner-workings of evolution, and presents new and interesting findings and statistics that you might have never heard of before. Upon finishing this book, you will have a new wealth of knowledge regarding the ways in which species interact with one another to foster the grand ecosystem that is the tree of life. Every organism, even the most seemingly insignificant ones, have a purpose in the world, for each organism is but a puzzle piece within the constantly changing web or organisms. The fittest is a conditional phase, and no organism is guaranteed to be at the top of the hierarchy forever. Thus, we are all in an evolutionary arm's race of sorts--I think our status as animals sharing this earth among many others who must run just as fast as us to keep up with nature, is quite beautiful, if you think about it.
I recommend this book for anyone who is interested in biology, evolution, Darwinism, etc. Those who are beginners in biology/people who lack a sufficient scientific background will be pleased to find that Carroll makes this understandable and interesting for the average Joe.
10/10
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