Extinction of Cocaine Self-Administration Reveals Functionally and Temporally Distinct Dopaminergic Signals in the Nucleus Accumbens

[1]  Jack Durell,et al.  National Institute on Drug Abuse , 2020, Definitions.

[2]  G. Paxinos,et al.  The Rat Brain in Stereotaxic Coordinates , 1983 .

[3]  G. Di Chiara,et al.  Drugs abused by humans preferentially increase synaptic dopamine concentrations in the mesolimbic system of freely moving rats. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[4]  Joseph B. Justice,et al.  Extracellular cocaine and dopamine concentrations are linearly related in rat striatum , 1988, Brain Research.

[5]  J. B. Justice,et al.  Differences in the Pharmacokinetics of Cocaine in Naive and Cocaine‐Experienced Rats , 1991, Journal of neurochemistry.

[6]  R. Ehrman,et al.  Developing treatments that address classical conditioning. , 1993, NIDA research monograph.

[7]  P. Garris,et al.  Different effects of cocaine and nomifensine on dopamine uptake in the caudate-putamen and nucleus accumbens. , 1995, The Journal of pharmacology and experimental therapeutics.

[8]  S. Deadwyler,et al.  Dose-dependent transitions in nucleus accumbens cell firing and behavioral responding during cocaine self-administration sessions in rats. , 1996, The Journal of pharmacology and experimental therapeutics.

[9]  Peter Dayan,et al.  A Neural Substrate of Prediction and Reward , 1997, Science.

[10]  T. Robbins,et al.  Associative Processes in Addiction and Reward The Role of Amygdala‐Ventral Striatal Subsystems , 1999, Annals of the New York Academy of Sciences.

[11]  R. Carelli,et al.  Nucleus accumbens cell firing during maintenance, extinction, and reinstatement of cocaine self-administration behavior in rats , 2000, Brain Research.

[12]  T. Robbins,et al.  Dissociation in Conditioned Dopamine Release in the Nucleus Accumbens Core and Shell in Response to Cocaine Cues and during Cocaine-Seeking Behavior in Rats , 2000, The Journal of Neuroscience.

[13]  S. Hyman,et al.  Addiction and the brain: The neurobiology of compulsion and its persistence , 2001, Nature Reviews Neuroscience.

[14]  F. Weiss,et al.  Enduring Resistance to Extinction of Cocaine-Seeking Behavior Induced by Drug-Related Cues , 2001, Neuropsychopharmacology.

[15]  P. Garris,et al.  Preferential Increases in Nucleus Accumbens Dopamine after Systemic Cocaine Administration Are Caused by Unique Characteristics of Dopamine Neurotransmission , 2000, The Journal of Neuroscience.

[16]  Y. Shaham,et al.  Effect of Dopamine Receptor Antagonists on Renewal of Cocaine Seeking by Reexposure to Drug-associated Contextual Cues , 2002, Neuropsychopharmacology.

[17]  R. Wightman,et al.  Correlation of local changes in extracellular oxygen and pH that accompany dopaminergic terminal activity in the rat caudate–putamen , 2003, Journal of neurochemistry.

[18]  R. Mark Wightman,et al.  Critical guidelines for validation of the selectivity of in-vivo chemical microsensors , 2003 .

[19]  Samuel M. McClure,et al.  A computational substrate for incentive salience , 2003, Trends in Neurosciences.

[20]  Garret D Stuber,et al.  Real-time measurements of phasic changes in extracellular dopamine concentration in freely moving rats by fast-scan cyclic voltammetry. , 2003, Methods in molecular medicine.

[21]  R. Wightman,et al.  Subsecond dopamine release promotes cocaine seeking , 2003, Nature.

[22]  W. Schultz,et al.  Discrete Coding of Reward Probability and Uncertainty by Dopamine Neurons , 2003, Science.

[23]  Garret D Stuber,et al.  Overoxidation of carbon-fiber microelectrodes enhances dopamine adsorption and increases sensitivity. , 2003, The Analyst.

[24]  R. Wise Dopamine, learning and motivation , 2004, Nature Reviews Neuroscience.

[25]  R. Carelli,et al.  Nucleus accumbens cell firing and rapid dopamine signaling during goal-directed behaviors in rats , 2004, Neuropharmacology.

[26]  B. Everitt,et al.  Contribution of the ventral tegmental area to cocaine‐seeking maintained by a drug‐paired conditioned stimulus in rats , 2004, The European journal of neuroscience.

[27]  R. Wightman,et al.  Dopamine Operates as a Subsecond Modulator of Food Seeking , 2004, The Journal of Neuroscience.

[28]  W. Schultz Neural coding of basic reward terms of animal learning theory, game theory, microeconomics and behavioural ecology , 2004, Current Opinion in Neurobiology.

[29]  Angelo Bifone,et al.  Concurrent pharmacological MRI and in situ microdialysis of cocaine reveal a complex relationship between the central hemodynamic response and local dopamine concentration , 2004, NeuroImage.

[30]  A. Redish,et al.  Addiction as a Computational Process Gone Awry , 2004, Science.

[31]  R. Wise,et al.  Fluctuations in nucleus accumbens dopamine concentration during intravenous cocaine self-administration in rats , 1995, Psychopharmacology.

[32]  R. Wightman,et al.  Rapid Dopamine Signaling in the Nucleus Accumbens during Contingent and Noncontingent Cocaine Administration , 2005, Neuropsychopharmacology.