1 Classification Schemes for Antipsychotic Drugs --; A. Introduction --; I. Historical Perspective --; B. Classification by Patterns of Efficacy and Neurological Side Effects --; C. Classification by Chemical Structure --; I. Phenothiazines --; II. Thioxanthenes --; III. Butyrophenones --; IV. Diphenylbutylpiperidines --; V. Indoles --; VI. Benzamides --; VII. Dibenzapines --; VIII. Others --; D. Classification by Potency and Nonneurologic Side-Effect Profile --; E. Classification by Pharmacological Mechanism --; I. Selective Dopamine Receptor D2 Antagonists --; II. Combined D2/D3 Antagonists --; III. Combined D2/D1 Antagonists --; IV. Combined 5-HT2-D2 Antagonists --; F. Future Classification Schemes --; I. Selective Serotonin Receptor Antagonists --; II. Partial D2 Agonists --; III. Sigma Site Antagonists and Excitatory Amino Acid Agonists --; IV. GABA-Mimetics and Partial Benzodiazepine Agonists --; G. Conclusions --; References --; 2 Molecular Models and Structure-Activity Relationships --; A. Introduction --; B. Structure-Activity Relationships of Antipsychotic Drugs --; C. Neurotransmitter Receptor Models --; D. Molecular Modelling of Drug-Receptor Interactions --; I. Electrostatic Fields Around Drug and Receptor Molecules --; II. Molecular Dynamics of Drug-Receptor Interactions --; E. Conclusions --; References --; 3 Interaction of Antipsychotic Drugs with Dopamine Receptor Subtypes --; A. Introduction --; B. Molecular Biology of Dopamine Receptor Subtypes --; I. General Structural Features of Dopamine Receptors --; II. The D1 Family of Dopamine Receptors --; 1. The Dopamine D1 Receptor --; 2. The Dopamine D5 Receptor --; III. The D2 Family of Dopamine Receptors --; 1. The Dopamine D2 Receptor --; 2. The Dopamine D3 Receptor --; 3. The Dopamine D4 Receptor --; C. Pharmacology of Neuroleptics at Recombinant Dopamine Receptors --; I. Traditional Neuroleptics and Related Compounds --; II. Clozapine and the Atypical Neuroleptics --; III. New Antipsychotics --; 1. Olanzapine: A Second-Generation Clozapine-Like Compound --; 2. Remoxipride: A D2 Receptor-Selective Substituted Benzamide --; 3. Risperidone: A D2/5-HT2 Receptor Antagonist --; D. Future Outlook and Hopes for Subtype-Specific Drugs --; References --; 4 Atypical Antipsychotic Drugs: Clinical and Preclinical Studies --; A. Introduction --; B. Glutamate --; I. Glutamate Receptors --; II. Glutamate Hypothesis of Schizophrenia --; III. Glutamatergic Drugs --; 1. Glycine and Milacemide --; 2. Umespirone --; 3. Others --; C.?-Aminobutyric Acid (GABA) --; I. GABA Receptors --; II. GABA Hypothesis of Schizophrenia and Clinical Studies of GABA-ergic Drugs --; D. Acetylcholine --; I. Acetylcholine Receptors --; II. Muscarinic Hyperactivity in Schizophrenia? " --; E. Norepinephrine --; I.?1-Adrenergic Receptor Involvement in Atypical Antipsychotic Drug Actions --; F. Cholecystokinin (CCK) --; I. CCK-ergic Drugs --; 1. LY262691 --; 2. Caerulin --; 3. Others --; G. Neurotensin --; I. Neurotensin and Schizophrenia --; II. Effects of Atypical Antipsychotic Drugs on Neurotensin Systems --; H. Sigma Receptors --; I. Sigma Receptors --; II. Preclinical Studies --; III. Specific Agents --; I. Opioids --; J. Serotonin --; I. 5-HT Receptors and Schizophrenia --; II. Selective 5-HT2A/2C Antagonists --; 1. Ritanserin --; 2. ICI169369 and MDL100907 --; 3. Mianserin --; III. Mixed 5-HT2/D2 Antagonists --; 1. Clozapine --; 2. Risperidone --; 3. Melperone --; 4. Olanzapine --; 5. Amperozide --; 6. Fluperlapine --; 7. Tiosperone --; 8. Zotepine --; 9. Others --; IV. 5-HT3 Antagonists --; V. Nonselective 5-HT Receptor Antagonists --; VI. 5-HT Reuptake Inhibitors --; K. Conclusions --; References --; 5 Sites and Mechanisms of Action of Antipsychotic Drugs as Revealed by Immediate-Early Gene Expression --; A. Introduction --; B. Immediate-Early Gene Expression as a Method to Assess the Sites and Mechanisms of Action of Antipsychotic Drugs (APDs) --; C. Effects of APDs on Immediate-Early Gene Induction in the Striatal Complex --; I. Effects of APDs on Regionally Specific Striatal Immediate-Early Gene Expression --; 1. Dorsal Striatum --; 2. Ventral Striatum --; II. Striatal Immediate-Early Gene Induction: Fos, Fos-Related Antigens, and Others --; 1. Fos Versus Fras --; 2. Other Immediate-Early Genes --; III. Mechanisms of Antipsychotic Drug-Elicited Striatal Fos Expression --; 1. Dopamine Receptors and APD-Elicited Increases in Striatal Fos --; a) D2 Dopamine Receptors --; b) D1 Dopamine Receptors --; c) Concurrent D2/D1 Receptor Occupancy and Striatal Fos Expression --; 2. Involvement of Excitatory Amino Acid Receptors in Neuroleptic-Elicited Striatal Fos Expression --; 3. Cholinergic and Adenosine Receptors --; a) Muscarinic Cholinergic Receptors --; b) Adenosine A2 Receptors --; IV. Acute Versus Chronic Effects of APDs on Striatal Fos Expression --; V. What Is the Transcriptional Target of APD-Elicited Striatal Fos Expression? --; 1. Neurotensin --; 2. Enkephalin --; 3. Glutamic Acid Decarboxylase --; D. Preferential Induction of Fos in the Prefrontal Cortex (PFC) by Clozapine --; I. Regional Effects of APDs on Fos Expression in the PFC --; 1. Effects of APDs on Fos Expression in the Medial PFC --; 2. Correlations Between PFC Expression and Clinical Status --; II. Receptor Mechanisms of Clozapine-Elicited Increase in PFC Fos Expression --; 1. D1 and D2 Dopamine (DA) Receptors and Clozapine-Elicited Fos Expression --; 2. Nondopaminergic Receptors and the PFC Fos Response to Clozapine --; 3. Mechanisms of Clozapine-Elicited Increases in PFC Fos Expression --; a) Possible Role of a Novel DA Receptor in Mediating Clozapine-Elicited Effects --; b) Targeting of Multiple Receptors --; c) Transsynaptic Events as a Possible Determinant of Clozapine-Induced Changes --; III. Transcriptional Targets of Clozapine's Actions in the PFC --; E. Effects of APDs on Immediate-Early Gene Expression in Other CNS Sites --; I. Thalamic Paraventricular Nucleus --; II. Lateral Septal Nucleus --; III. Other CNS Regions --; F. Conclusions --; I. Methodological Issues --; II. Validity of Fos Expression as a Model of the Actions of APDs --; III. Future Directions --; References --; 6 Basic Neurophysiology of Antipsychotic Drug Action --; A. Introduction --; B. The Dopamine Hypothesis of Schizophrenia --; I. Antipsychotic Drugs as D2 Blockers --; II. Shortcomings of the Dopamine Hypothesis --; C. Acute Physiology of Antipsychotic Drug Action --; I. Dopamine Cell Identification and Physiology --; II. Acute Actions of Antipsychotic Drugs on Dopamine Cell Physiology --; 1. Acute Antipsychotic Drugs Increase Firing Rate --; 2. Acute Antipsychotic Drug Administration Increases Dopamine Cell Burst Firing --; 3. Acute Antipsychotic Drug Treatment Increase the Number of Dopamine Cells Firing Spontaneously --; D. Physiology of Chronic Antipsychotic Drug Treatment --; I. Tolerance to Antipsychotic Drug Action --; II. Chronic Treatment with Antipsychotic Drugs and Dopamine Cell Depolarization Block --; III. Analysis of Mechanisms Contributing to Depolarization Block: Compensatory Systems Involved in the Recovery of Function After Dopamine Lesions --; E. Dual Mode of Dopamine Release: Tonic Versus Phasic --; F. Antipsychotic Drug Treatment and Electrotonic Transmission Within the Basal Ganglia --; I. Dopaminergic Control of Electrotonic Coupling in the Striatum --; II. Effects of Subchronic Treatment with Haloperidol or Clozapine on Striatal Cell Dye Coupling Observed In Vitro --; III. Effects of Subchronic Treatment with Haloperidol or Clozapine on Striatal Cell Dye Coupling Observed In Vivo --; G. Conclusions --; References --; 7 Tolerance and Sensitization to the Effects of Antipsychotic Drugson Dopamine Transmission --; A. Introduction --; B. Effects of Single Administration on Dopamine and Related Behaviors --; C. Effects of Repeated Administration and the Induction of Sensitization and Tolerance --; I. Tolerance --; II. Sensitization --; D.
متن يادداشت
Atypical Antipsychotic Drugs --; E. Conclusions --; References --; 8 The Behavioural Pharmacology of Typical and Atypical Antipsychotic Drugs --; A. Introduction --; B. Typical and Atypical Antipsychotic Drugs --; I. Concepts and Nomenclature --; II. Atypical Antipsychotic Drugs --; III. Behavioural Testing Procedures for Typical and Atypical Antipsychotic Drugs --; C. Basic Actions of Antipsychotic Drugs and Their Behavioural Effects --; D. Effects on Motor Function --; I. Spontaneous Locomotor Activity --; II. Catalepsy and the Paw Test --; E. Effects of Antipsychotic Drugs on Behavioural Effects Elicited by DA Receptor Agonists or Glutamate Antagonists --; I. d-Amphetamine (Methylphenidate)-Induced Behavioural Effects --; II. Apomorphine-Induced Behavioural Effects --; III. Phencyclidine-Induced Behavioural Effects --; F. Action on Conditioned Avoidance --; G. Animal Models of Psychosis and Antipsychotic Drugs --; H. Conclusions --; References --; 9 Antipsychotic Drug Action After Lesions to the Hippocampus or Frontal Cortex --; A. Introduction --; B. Mechanisms of Antipsychotic Drug Action --; I. Dopaminergic Mechanisms --; II. Glutamatergic Mechanisms --; C. Neuropathology and Antipsychotic Drug Action --; D. Effect of Hippocampal Neuropathology on Mechanisms of Antipsychotic Drug Action --; I. Anatomy --; II. Consequences for Glutamatergic Mechanisms of Antipsychotic Drug Action --; III. Consequences for Dopaminergic Mechanisms of Antipsychotic Drug Action --; 1. Dopamine Receptors --; 2. Dopamine Turnover and Release --; 3. Dopamine-Mediated Behaviors --; IV. Summary --; E. Effect of Frontal Cortical Neuropathology on Mechanisms of Antipsychotic Drug Action --; I. Anatomy --; II. Consequences for Glutamatergic Mechanisms of Antipsychotic Drug Action --; III. Consequences for Dopaminergic Mechanisms of Antipsychotic Drug Action --; 1. Dopamine Receptors --; 2. Dopamine Turnover and Release --; 3. Dopamine-Mediated Behaviors --; IV. Summary --; F. Conclusions --; References --; 10 An Animal Model of Sensorimotor Gating Deficits in SchizophreniaPredicts Antipsychotic Drug Action --; A. Introduction --; I. Face Validity: Are the Eliciting Stimuli and Response Patterns of Prepulse.
یادداشتهای مربوط به خلاصه یا چکیده
متن يادداشت
This volume summarizes recent advances in the understanding and development of new antipsychotic drugs from a wide variety of perspectives. Recent innovations in molecular biology and modeling offer a new array of neuroreceptor targets for drug development. Extensive investigations in neurophysiology, neurochemistry, and behavioral pharmacology have produced an understanding of antipsychotic drug action that goes far beyond the original dopamine hypothesis. Rather, new hypotheses about antipsychotic drug action are based on understanding the anatomy and activity of neuronal circuits.-Finally, this volume offers an expert summary of the characteristics that distinguish typical and atypical antipsychotic drugs, and the ways that these should be used in patients with schizophrenia and other mental disorders.
موضوع (اسم عام یاعبارت اسمی عام)
موضوع مستند نشده
Antipsychotic Agents.
موضوع مستند نشده
Antipsychotic drugs.
موضوع مستند نشده
Psychoses -- Chemotherapy.
رده بندی کنگره
شماره رده
QP905
نشانه اثر
.
C668
1996
نام شخص به منزله سر شناسه - (مسئولیت معنوی درجه اول )