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Decision neuroscience [electronic resource] : an integrative perspective

Decision neuroscience [electronic resource] : an integrative perspective

Material type
E-Book(소장)
Title Statement
Decision neuroscience [electronic resource] : an integrative perspective / edited by Jean-Claude Dreher, Léon Tremblay.
Publication, Distribution, etc
London : Academic Press, c2017.
Physical Medium
1 online resource (xvii, 422 p.) : ill.
ISBN
9780128053317 (electronic bk.) 0128053313 (electronic bk.) 9780128053089 0128053089
요약
Decision Neuroscience addresses fundamental questions about how the brain makes perceptual, value-based, and more complex decisions in non-social and social contexts. This book presents compelling neuroimaging, electrophysiological, lesional, and neurocomputational models in combination with hormonal and genetic approaches, which have led to a clearer understanding of the neural mechanisms behind how the brain makes decisions. The five parts of the book address distinct but inter-related topics and are designed to serve both as classroom introductions to major subareas in decision neuroscience and as advanced syntheses of all that has been accomplished in the last decade. Part I is devoted to anatomical, neurophysiological, pharmacological, and optogenetics animal studies on reinforcement-guided decision making, such as the representation of instructions, expectations, and outcomes; the updating of action values; and the evaluation process guiding choices between prospective rewards. Part II covers the topic of the neural representations of motivation, perceptual decision making, and value-based decision making in humans, combining neurcomputational models and brain imaging studies. Part III focuses on the rapidly developing field of social decision neuroscience, integrating recent mechanistic understanding of social decisions in both non-human primates and humans. Part IV covers clinical aspects involving disorders of decision making that link together basic research areas including systems, cognitive, and clinical neuroscience; this part examines dysfunctions of decision making in neurological and psychiatric disorders, such as Parkinson's disease, schizophrenia, behavioral addictions, and focal brain lesions. Part V focuses on the roles of various hormones (cortisol, oxytocin, ghrelin/leptine) and genes that underlie inter-individual differences observed with stress, food choices, and social decision-making processes. The volume is essential reading for anyone interested in decision making neuroscience. With contributions that are forward-looking assessments of the current and future issues faced by researchers, Decision Neuroscience is essential reading for anyone interested in decision-making neuroscience.
General Note
Title from e-Book title page.
Content Notes
Animal studies on rewards, punishments, and decision-making -- Human studies on motivation, perceptual, and value-based decision-making -- Social decision neuroscience -- Human clinical studies involving dysfunctions of reward and decision-making processes -- Genetic and hormonal influences on motivational and social behavior.
Bibliography, Etc. Note
Includes bibliographical references and index.
이용가능한 다른형태자료
Issued also as a book.
Subject Added Entry-Topical Term
Decision making --Physiological aspects. Cognitive neuroscience. Neuropsychology. Incentive (Psychology). Punishment (Psychology). Motivation (Psychology). Decision Making --physiology. Brain --physiology. Reward. Social Behavior. Motivation --physiology.
Short cut
URL
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020 ▼a 9780128053317 (electronic bk.)
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245 0 0 ▼a Decision neuroscience ▼h [electronic resource] : ▼b an integrative perspective / ▼c edited by Jean-Claude Dreher, Léon Tremblay.
260 ▼a London : ▼b Academic Press, ▼c c2017.
300 ▼a 1 online resource (xvii, 422 p.) : ▼b ill.
500 ▼a Title from e-Book title page.
504 ▼a Includes bibliographical references and index.
505 0 ▼a Animal studies on rewards, punishments, and decision-making -- Human studies on motivation, perceptual, and value-based decision-making -- Social decision neuroscience -- Human clinical studies involving dysfunctions of reward and decision-making processes -- Genetic and hormonal influences on motivational and social behavior.
520 ▼a Decision Neuroscience addresses fundamental questions about how the brain makes perceptual, value-based, and more complex decisions in non-social and social contexts. This book presents compelling neuroimaging, electrophysiological, lesional, and neurocomputational models in combination with hormonal and genetic approaches, which have led to a clearer understanding of the neural mechanisms behind how the brain makes decisions. The five parts of the book address distinct but inter-related topics and are designed to serve both as classroom introductions to major subareas in decision neuroscience and as advanced syntheses of all that has been accomplished in the last decade. Part I is devoted to anatomical, neurophysiological, pharmacological, and optogenetics animal studies on reinforcement-guided decision making, such as the representation of instructions, expectations, and outcomes; the updating of action values; and the evaluation process guiding choices between prospective rewards. Part II covers the topic of the neural representations of motivation, perceptual decision making, and value-based decision making in humans, combining neurcomputational models and brain imaging studies. Part III focuses on the rapidly developing field of social decision neuroscience, integrating recent mechanistic understanding of social decisions in both non-human primates and humans. Part IV covers clinical aspects involving disorders of decision making that link together basic research areas including systems, cognitive, and clinical neuroscience; this part examines dysfunctions of decision making in neurological and psychiatric disorders, such as Parkinson's disease, schizophrenia, behavioral addictions, and focal brain lesions. Part V focuses on the roles of various hormones (cortisol, oxytocin, ghrelin/leptine) and genes that underlie inter-individual differences observed with stress, food choices, and social decision-making processes. The volume is essential reading for anyone interested in decision making neuroscience. With contributions that are forward-looking assessments of the current and future issues faced by researchers, Decision Neuroscience is essential reading for anyone interested in decision-making neuroscience.
530 ▼a Issued also as a book.
538 ▼a Mode of access: World Wide Web.
650 0 ▼a Decision making ▼x Physiological aspects.
650 0 ▼a Cognitive neuroscience.
650 0 ▼a Neuropsychology.
650 0 ▼a Incentive (Psychology).
650 0 ▼a Punishment (Psychology).
650 0 ▼a Motivation (Psychology).
650 1 2 ▼a Decision Making ▼x physiology.
650 2 2 ▼a Brain ▼x physiology.
650 2 2 ▼a Reward.
650 2 2 ▼a Social Behavior.
650 2 2 ▼a Motivation ▼x physiology.
700 1 ▼a Dreher, Jean-Claude .
700 1 ▼a Tremblay, Léon.
856 4 0 ▼3 ScienceDirect ▼u https://oca.korea.ac.kr/link.n2s?url=http://www.sciencedirect.com/science/book/9780128053089
945 ▼a KLPA
991 ▼a E-Book(소장)

Holdings Information

No. Location Call Number Accession No. Availability Due Date Make a Reservation Service
No. 1 Location Main Library/e-Book Collection/ Call Number CR 612.8 Accession No. E14013579 Availability Loan can not(reference room) Due Date Make a Reservation Service M

Contents information

Table of Contents

Front Cover -- DECISION NEUROSCIENCE -- DECISION NEUROSCIENCE:AN INTEGRATIVE PERSPECTIVE -- Copyright -- Contents -- List of Contributors -- Preface -- STRUCTURE OF THE BOOK -- I - ANIMAL STUDIES ON REWARDS, PUNISHMENTS, AND DECISION-MAKING -- 1 - Anatomy and Connectivity of the Reward Circuit -- INTRODUCTION -- PREFRONTAL CORTEX -- THE VENTRAL STRIATUM -- Special Features of the Ventral Striatum -- Connections of the Ventral Striatum (See Fig. 1.3) -- Cortical Projections to the Ventral Striatum -- The Amygdala and Hippocampal Projections to the Ventral Striatum -- Thalamic Projections to the Ventral Striatum -- Efferent Projections From the Ventral Striatum (See Fig. 1.4) -- VENTRAL PALLIDUM (FIG. 1.4) -- THE MIDBRAIN DOPAMINE NEURONS -- Afferent Projections (Fig. 1.5B) -- Efferent Projections (Fig. 1.5B) -- The Striatonigrostriatal Network -- COMPLETING THE CORTICAL–BASAL GANGLIA REWARD CIRCUIT -- Subthalamic Nucleus, the Hyperdirect Cortical Pathway -- The Lateral Habenula, a Negative-Reward Signal -- The Thalamus, the Final Link Back to Cortex -- The Lateral Habenula, Pedunculopontine Tegmental Nucleus, and the Raphe Serotonergic Systems -- Complex Network Features of the Reward Circuit -- References -- 2 - Electrophysiological Correlates of Reward Processing in Dopamine Neurons -- INTRODUCTION -- BASICS OF DOPAMINE REWARD-PREDICTION ERROR CODING -- Reward-Prediction Error -- Response Components -- Reward Learning -- SUBJECTIVE VALUE AND FORMAL ECONOMIC UTILITY CODING -- Subjective Value -- Subjective Value Derived From Risk -- Utility -- DOPAMINE AND DECISION-MAKING -- Updating of Decision Variables -- Direct Dopamine Influences on Choices -- Acknowledgments -- References -- 3 - Appetitive and Aversive Systems in the Amygdala -- INTRODUCTION -- Valence in the Amygdala -- Updating the Valence Representation in the Amygdala: Learning, Extinction, and Cognitive Regulation -- The Influence of Valenced Representations in the Amygdala on Cognitive Processes -- CONCLUSION -- References -- 4 - Ventral Striatopallidal Pathways Involved in Appetitive and Aversive Motivational Processes -- INTRODUCTION -- THE CORTICOBASAL GANGLIA FUNCTIONAL CIRCUITS: THE RELATION BETWEEN THE CORTEX AND THE BASAL GANGLIA -- THE DIRECT AND INDIRECT PATHWAYS: FROM INHIBITION OF COMPETITIVE MOVEMENT TO AVERSIVE BEHAVIORS -- SINGLE-UNIT RECORDING IN AWAKE ANIMALS TO INVESTIGATE THE NEURAL BASES -- TASKS TO INVESTIGATE APPETITIVE APPROACH BEHAVIOR AND POSITIVE MOTIVATION -- VENTRAL STRIATUM AND VENTRAL PALLIDUM ARE ALSO INVOLVED IN AVERSIVE BEHAVIORS: FIRST EVIDENCE OF LOCAL INHIBITORY DYSFUNCTION -- THE VENTRAL STRIATUM AND THE VENTRAL PALLIDUM ENCODE AVERSIVE FUTURE EVENTS FOR PREPARATION OF AVOIDANCE AND FOR CONTROLLING ANXIETY LEVEL -- ABNORMAL AVERSIVE PROCESSING COULD BIAS DECISION-MAKING TOWARD PATHOLOGICAL BEHAVIORS -- CONCLUSION -- Acknowledgments -- References -- 5 - Reward and Decision Encoding in Basal Ganglia: Insights From Optogenetics and Viral Tracing Studie.
s in Rodents -- DOPAMINE -- Physiology -- Function -- Circuitry -- STRIATUM -- Initiating Movement, Habits, and Motor Skills -- Value Representations and Adaptive Decision-Making -- Circuits -- CONCLUSIONS -- References -- 6 - The Learning and Motivational Processes Controlling Goal-Directed Action and Their Neural Bases -- LEARNING “WHAT LEADS TO WHAT”: THE NEURAL BASES OF ACTION–OUTCOME LEARNING -- HOW REWARDS ARE FORMED: NEURAL BASES OF INCENTIVE LEARNING -- DECIDING WHAT TO DO: THE NEURAL BASES OF OUTCOME RETRIEVAL AND CHOICE -- HOW THESE CIRCUITS INTERACT: CONVERGENCE ON THE DORSOMEDIAL STRIATUM -- CONCLUSION -- Acknowledgments -- References -- 7 - Impulsivity, Risky Choice, and Impulse Control Disorders: Animal Models -- DELAYED AND PROBABILISTIC DISCOUNTING: “IMPULSIVE CHOICE” IN DECISION-MAKING -- PREMATURE RESPONDING IN THE 5CSRTT -- STOP-SIGNAL REACTION TIME -- NEURAL BASIS OF IMPULSIVITY -- NEURAL SUBSTRATES OF WAITING IMPULSIVITY -- 5CSRTT Premature Responding -- Temporal Discounting of Reward -- Nucleus Accumbens -- Amygdala and Corticolimbic Influences -- NEURAL SUBSTRATES OF PROBABILITY DISCOUNTING OF REWARD: RISKY CHOICE -- MOTOR IMPULSIVITY: STOP-SIGNAL INHIBITION -- CONCLUSION -- Acknowledgments -- References -- 8 - Prefrontal Cortex in Decision-Making: The Perception–Action Cycle -- THE PERCEPTION–ACTION CYCLE -- INPUTS TO THE PERCEPTION–ACTION CYCLE IN DECISION-MAKING -- PREDICTION AND PREPARATION TOWARD DECISION -- EXECUTION OF DECISION -- FEEDBACK FROM DECISION: CLOSURE OF THE PERCEPTION–ACTION CYCLE -- References -- II - HUMAN STUDIES ON MOTIVATION, PERCEPTUAL, AND VALUE-BASED DECISION-MAKING -- 9 - Reward, Value, and Salience -- INTRODUCTION -- VALUE -- Definition and Behavioral Function -- Value Signals in the Human Brain -- SALIENCE -- Definition and Behavioral Function -- Confounds in Operational Definitions of Salience -- Salience Signals in the Human Brain -- CONCLUSIONS -- References -- 10 - Computational Principles of Value Coding in the Brain -- INTRODUCTION -- VALUE AND CHOICE BEHAVIOR -- VALUE CODING IN DECISION CIRCUITS -- CONTEXT DEPENDENCE IN BRAIN AND BEHAVIOR -- NEURAL COMPUTATIONS UNDERLYING VALUE REPRESENTATION -- TEMPORAL DYNAMICS AND CIRCUIT MECHANISMS -- CONCLUSIONS -- References -- 11 - Spatiotemporal Characteristics and Modulators of Perceptual Decision-Making in the Human Brain -- INTRODUCTION -- FACTORS AFFECTING PERCEPTUAL DECISION-MAKING -- Prestimulus State -- Reward and Punishment -- Speed Versus Accuracy Trade-Off -- Learning and Training -- Confidence -- Neuromodulation -- CONCLUSION -- References -- 12 - Perceptual Decision-Making: What Do We Know, and What Do We Not Know? -- INTRODUCTION -- WHAT ARE PERCEPTUAL DECISIONS? -- AIMS AND SCOPE OF THIS CHAPTER -- DECISION OPTIMALITY -- Q1: HOW IS INFORMATION INTEGRATED DURING PERCEPTUAL DECISION-MAKING? -- Observers Sample Information Sequentially -- However, Information Integration Is Not Lossless -- Q1: Summary -- Q2: WHAT COMPUTATIONS DO CORTIC.
AL NEURONS PERFORM DURING PERCEPTUAL DECISIONS? -- In the Macaque, Lateral Intraparietal Region Firing Rates Grow During Information Integration -- In the Rodent, Posterior Parietal Cortex Neurons Show Similar Dynamics -- However, Lateral Intraparietal Region and Posterior Parietal Cortex Neurons Exhibit Mixed Selectivity -- Q2: Summary -- Q3: HOW CAN WE STUDY PERCEPTUAL DECISION-MAKING IN HUMANS? -- It Is Unclear How BOLD Signals Encode Decision Variables -- EEG Signals Capture Integration-to-Bound Dynamics During Perceptual Decisions -- EEG Studies Suggest Discrete Computational Stages for Perceptual Decisions -- Q3: Summary -- Q4: HOW DO OBSERVERS DECIDE WHEN TO DECIDE? -- It Is Unclear How Speed and Accuracy Are Traded Off at the Neural Level -- The Optimal Bound Collapses When Sensory Reliability Is Unknown -- Decisions May Be Driven by a Time-Varying Urgency Signal -- Q4: Summary -- Q5: HOW ARE PERCEPTUAL DECISIONS BIASED BY PRIOR BELIEFS? -- Probability Cues Can Bias Both the Origin and the Slope of Information Integration -- Predictive Coding -- Adaptive Gain Control During Perceptual Decision-Making -- Q5: Summary -- CONCLUSIONS AND FUTURE DIRECTIONS -- Acknowledgments -- References -- 13 - Neural Circuit Mechanisms of Value-Based Decision-Making and Reinforcement Learning -- INTRODUCTION -- REPRESENTATIONS OF REWARD VALUE -- LEARNING REWARD VALUES -- STOCHASTIC DOPAMINE-DEPENDENT PLASTICITY FOR LEARNING REWARD VALUES -- FORAGING WITH PLASTIC SYNAPSES -- RANDOM CHOICE AND COMPETITIVE GAMES -- PROBABILISTIC INFERENCE WITH STOCHASTIC SYNAPSES -- CONCLUDING REMARKS -- Acknowledgments -- References -- III - SOCIAL DECISION NEUROSCIENCE -- 14 - Social Decision-Making in Nonhuman Primates -- INTRODUCTION -- BEHAVIORAL STUDIES ON SOCIAL DECISION-MAKING -- NEURONAL CORRELATES OF DECISION-MAKING IN A SOCIAL CONTEXT -- CONCLUSIONS AND PERSPECTIVES -- References -- 15 - Organization of the Social Brain in Macaques and Humans -- INTRODUCTION -- MEDIAL PREFRONTAL CORTEX -- SUPERIOR TEMPORAL SULCUS AND TEMPORAL PARIETAL JUNCTION -- A SOCIAL BRAIN NETWORK -- SUMMARY AND PERSPECTIVES -- References -- 16 - The Neural Bases of Social Influence on Valuation and Behavior -- INTRODUCTION -- THE EFFECT OF MERE PRESENCE OF OTHERS ON PROSOCIAL BEHAVIOR -- The Neural Bases of Social Reward Processing -- The Observer Effect in Autism -- THE EFFECT OF OTHERS'' OPINIONS ON VALUATION -- The Neural Bases of Social Conformity -- Summary and Future Directions -- CONCLUDING REMARKS -- References -- 17 - Social Dominance Representations in the Human Brain -- INTRODUCTION -- Social Hierarchies in Health and Well-Being -- Social Hierarchies as a Major Evolutionary Pressure and Pivotal Feature of Societies -- LEARNING SOCIAL DOMINANCE HIERARCHIES -- Reinforcement Learning Approaches to Social Cognition -- The Emergence of Dominance and Subordination by Reinforcement Learning -- INTERINDIVIDUAL DIFFERENCES AND SOCIAL DOMINANCE -- Intercultural Differences in the Appraisal of .

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