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Ganglions de la base : Motivation et Récompense

Toutes les publications BaGaMoRe


  • Atkinson‐Clement C., Cavazzini É., Zénon A., Witjas T., Fluchère F., Azulay J.‐P., Baunez C., et Eusebio A. (2019). Effects of subthalamic nucleus stimulation and levodopa on decision‐making in Parkinson's disease. Movement Disorders, 34: 377-385.

  • Lguensat A., Bentefour Y., Bennis M., Ba-M'hamed S., et Garcia R. (2019). Susceptibility and Resilience to PTSD-Like Symptoms in Mice Are Associated with Opposite Dendritic Changes in the Prelimbic and Infralimbic Cortices Following Trauma. Neuroscience, 418: 166-176.

  • Pelloux Y., Giorla E., Montanari C., et Baunez C. (2019). Social modulation of drug use and drug addiction. Neuropharmacology, 159: 107545.

  • Tremblay M., Barrus M.M., Cocker P.J., Baunez C., et Winstanley C.A. (2019). Increased motor impulsivity in a rat gambling task during chronic ropinirole treatment: potentiation by win-paired audiovisual cues. Psychopharmacology, 236: 1901-1915.

  • Véron‐Delor L., Pinto S., Eusebio A., Azulay J.‐P., Witjas T., Velay J.‐L., et Danna J. (2019). Musical sonification improves motor control in Parkinson's disease: a proof of concept with handwriting. Annals of the New York Academy of Sciences.


  • Bentefour Y., Bennis M., Garcia R., et Ba-M'hamed S. (2018). High-frequency stimulation of the infralimbic cortex, following behavioral suppression of PTSD-like symptoms, prevents symptom relapse in mice. Brain Stimulation, 11: 913-920.

  • Giorla E., Nordmann S., Pelloux Y., Roux P., Rosellini S., Davranche K., Montanari C., Vilotitch A., Huguet P., Carrieri P., et Baunez C. (2018). Peer presence and familiarity as key factors to reduce cocaine intake: evidence from translational research. .

  • Montanari C., Giorla E., Pelloux Y., et Baunez C. (2018). Subthalamic nucleus mediates the modulation on cocaine self-administration induced by ultrasonic vocalization playback in rats. Addiction Biology.

  • Nougaret S. et Ravel S. (2018). Dynamic Encoding of Effort and Reward throughout the Execution of Action by External Globus Pallidus Neurons in Monkeys. Journal of Cognitive Neuroscience, 30: 1130-1144.

  • Pautrat A., Rolland M., Barthelemy M., Baunez C., Sinniger V., Piallat B., Savasta M., Overton P.G., David O., et Coizet V. (2018). Revealing a novel nociceptive network that links the subthalamic nucleus to pain processing. eLife, 7.

  • Pelloux Y., Degoulet M., Tiran-Cappello A., Cohen C., Lardeux S., George O., Koob G.F., Ahmed S.H., et Baunez C. (2018). Subthalamic nucleus high frequency stimulation prevents and reverses escalated cocaine use. Molecular Psychiatry, 23: 2266-2276.


  • Adams W.K., Vonder Haar C., Tremblay M., Cocker P.J., Silveira M.M., Kaur S., Baunez C., et Winstanley C.A. (2017). Deep-Brain Stimulation of the Subthalamic Nucleus Selectively Decreases Risky Choice in Risk-Preferring Rats. eneuro, 4: ENEURO.0094-17.2017.

  • Apicella P. (2017). The role of the intrinsic cholinergic system of the striatum: What have we learned from TAN recordings in behaving animals? Neuroscience, 360: 81-94.

  • Brovelli A., Badier J.-M., Bonini F., Bartolomei F., Coulon O., et Auzias G. (2017). Dynamic Reconfiguration of Visuomotor-Related Functional Connectivity Networks. The Journal of Neuroscience, 37: 839-853.

  • Garcia R. (2017). Neurobiology of fear and specific phobias. Learning & Memory, 24: 462-471.

  • Khalfa S. et Cf T. (2017). EMDR Therapy Mechanisms Explained by the Theory of Neural Cognition. Journal of Traumatic Stress Disorders & Treatment, 06.

  • Marche K. et Apicella P. (2017). Changes in activity of fast-spiking interneurons of the monkey striatum during reaching at a visual target. Journal of Neurophysiology, 117: 65-78.

  • Marche K., Martel A.-C., et Apicella P. (2017). Differences between Dorsal and Ventral Striatum in the Sensitivity of Tonically Active Neurons to Rewarding Events. Frontiers in Systems Neuroscience, 11.

  • Pelloux Y. et Baunez C. (2017). Targeting the subthalamic nucleus in a preclinical model of alcohol use disorder. Psychopharmacology, 234: 2127-2137.

  • Tremblay M., Silveira M.M., Kaur S., Hosking J.G., Adams W.K., Baunez C., et Winstanley C.A. (2017). Chronic D 2/3 agonist ropinirole treatment increases preference for uncertainty in rats regardless of baseline choice patterns. European Journal of Neuroscience, 45: 159-166.

  • Wade C.L., Kallupi M., Hernandez D.O., Breysse E., de Guglielmo G., Crawford E., Koob G.F., Schweitzer P., Baunez C., et George O. (2017). High-Frequency Stimulation of the Subthalamic Nucleus Blocks Compulsive-Like Re-Escalation of Heroin Taking in Rats. Neuropsychopharmacology, 42: 1850-1859.


  • Bentefour Y., Rakibi Y., Bennis M., Ba-M’hamed S., et Garcia R. (2016). Paroxetine treatment, following behavioral suppression of PTSD-like symptoms in mice, prevents relapse by activating the infralimbic cortex. European Neuropsychopharmacology, 26: 195-207.

  • Degoulet M., Stelly C.E., Ahn K.-C., et Morikawa H. (2016). L-type Ca2+ channel blockade with antihypertensive medication disrupts VTA synaptic plasticity and drug-associated contextual memory. Molecular Psychiatry, 21: 394-402.

  • Zénon A., Duclos Y., Carron R., Witjas T., Baunez C., Régis J., Azulay J.-P., Brown P., et Eusebio A. (2016). The human subthalamic nucleus encodes the subjective value of reward and the cost of effort during decision-making. Brain, 139: 1830-1843.


  • Breysse E., Pelloux Y., et Baunez C. (2015). The Good and Bad Differentially Encoded within the Subthalamic Nucleus in Rats. eNeuro, 2.

  • Brovelli A., Chicharro D., Badier J.-M., Wang H., et Jirsa V. (2015). Characterization of Cortical Networks and Corticocortical Functional Connectivity Mediating Arbitrary Visuomotor Mapping. Journal of Neuroscience, 35: 12643-12658.

  • Deschaux O., Koumar O.-C., Canini F., Moreau J.-L., et Garcia R. (2015). High-frequency stimulation of the hippocampus blocks fear learning sensitization and return of extinguished fear. Neuroscience, 286C: 423-429.

  • Espinosa-Parrilla J.-F., Baunez C., et Apicella P. (2015). Modulation of neuronal activity by reward identity in the monkey subthalamic nucleus. European Journal of Neuroscience, 42: 1705-1717.

  • Hachem-Delaunay S., Fournier M.-L., Cohen C., Bonneau N., Cador M., Baunez C., et Le Moine C. (2015). Subthalamic nucleus high-frequency stimulation modulates neuronal reactivity to cocaine within the reward circuit. Neurobiology of Disease, 80: 54-62.

  • Jahanshahi M., Obeso I., Baunez C., Alegre M., et Krack P. (2015). Parkinson's Disease, the Subthalamic Nucleus, Inhibition, and Impulsivity: PD, The STN, Inhibition, and Impulsivity. Movement Disorders, 30: 128-140.

  • Nougaret S. et Ravel S. (2015). Modulation of Tonically Active Neurons of the Monkey Striatum by Events Carrying Different Force and Reward Information. Journal of Neuroscience, 35: 15214-15226.

  • Pelloux Y. et Baunez C. (2015). La chirurgie au secours des addictions. Médecine/Sciences, 31: 674-679.


  • Caudron S., Guerraz M., Eusebio A., Gros J.-P., Azulay J.-P., et Vaugoyeau M. (2014). Evaluation of a visual biofeedback on the postural control in Parkinson's disease. Neurophysiologie Clinique = Clinical Neurophysiology, 44: 77-86.

  • Désaméricq G., Dolbeau G., Verny C., Charles P., Durr A., Youssov K., Simonin C., Azulay J.-P., Tranchant C., Goizet C., Damier P., Broussolle E., Demonet J.-F., Morgado G., Cleret de Langavant L., Macquin-Mavier I., Bachoud-Lévi A.-C., et Maison P. (2014). Effectiveness of anti-psychotics and related drugs in the Huntington French-speaking group cohort. PloS One, 9.

  • Devos D., Moreau C., Maltête D., Lefaucheur R., Kreisler A., Eusebio A., Defer G., Ouk T., Azulay J.-P., Krystkowiak P., Witjas T., Delliaux M., Destée A., Duhamel A., Bordet R., Defebvre L., et Dujardin K. (2014). Rivastigmine in apathetic but dementia and depression-free patients with Parkinson's disease: a double-blind, placebo-controlled, randomised clinical trial. Journal of Neurology, Neurosurgery, and Psychiatry, 85: 668-674.

  • Doig N.M., Magill P.J., Apicella P., Bolam J.P., et Sharott A. (2014). Cortical and thalamic excitation mediate the multiphasic responses of striatal cholinergic interneurons to motivationally salient stimuli. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, 34: 3101-3117.

  • Fluchere F., Witjas T., Eusebio A., Bruder N., Giorgi R., Leveque M., Peragut J.-C., Azulay J.-P., et Regis J. (2014). Controlled general anaesthesia for subthalamic nucleus stimulation in Parkinson's disease. Journal of Neurology, Neurosurgery, and Psychiatry, 85: 1167-1173.

  • Nachon O., Cleren C., Husson S., Huguet C., Auclair J., Faure S., Akirav I., Moreau J.-L., et Garcia R. (2014). Prefrontal tetanic stimulation, following fear reconditioning, facilitates expression of previously acquired extinction. Neurobiology of Learning and Memory, 113: 62-68.

  • Ory-Magne F., Corvol J.-C., Azulay J.-P., Bonnet A.-M., Brefel-Courbon C., Damier P., Dellapina E., Destée A., Durif F., Galitzky M., Lebouvier T., Meissner W., Thalamas C., Tison F., Salis A., Sommet A., Viallet F., Vidailhet M., Rascol O., et NS-Park CIC Network (2014). Withdrawing amantadine in dyskinetic patients with Parkinson disease: the AMANDYSK trial. Neurology, 82: 300-307.


  • Azulay J.-P. (2013). [Neurostimulation of subthalamic nuclei: better early than never!]. Revue Neurologique, 169: 283-284.

  • Azulay J.-P., Witjas T., et Eusebio A. (2013). Effect of subthalamic deep brain stimulation on non-motor fluctuations in Parkinson’s disease. Journal of Neural Transmission, 120: 655-657.

  • Cleren C., Tallarida I., Guiniec E.L., Janin F., Nachon O., Canini F., Spennato G., Moreau J.-L., et Garcia R. (2013). Low-frequency stimulation of the ventral hippocampus facilitates extinction of contextual fear. Neurobiology of Learning and Memory, 101: 39-45.

  • Deschaux O., Zheng X., Lavigne J., Nachon O., Cleren C., Moreau J.-L., et Garcia R. (2013). Post-extinction fluoxetine treatment prevents stress-induced reemergence of extinguished fear. Psychopharmacology, 225: 209-216.

  • Espinosa-Parrilla J.-F., Baunez C., et Apicella P. (2013). Linking reward processing to behavioral output: motor and motivational integration in the primate subthalamic nucleus. Frontiers in Computational Neuroscience, 7.

  • Eusebio A., Witjas T., Cohen J., Fluchère F., Jouve E., Régis J., et Azulay J.-P. (2013). Subthalamic nucleus stimulation and compulsive use of dopaminergic medication in Parkinson's disease. Journal of Neurology, Neurosurgery, and Psychiatry, 84: 868-874.

  • Lardeux S., Paleressompoulle D., Pernaud R., Cador M., et Baunez C. (2013). Different populations of subthalamic neurons encode cocaine versus sucrose reward and predict future error. Journal of Neurophysiology, 110: 1497-1510.

  • Metzger S., Walter C., Riess O., Roos R.A.C., Nielsen J.E., Craufurd D., REGISTRY Investigators of the European Huntington’s Disease Network, et Nguyen H.P. (2013). The V471A polymorphism in autophagy-related gene ATG7 modifies age at onset specifically in Italian Huntington disease patients. PloS One, 8.

  • Ohannessian A., Kaboré F.A., Agostini A., Lenne Aurier K., Witjas T., Azulay J.-P., et Karsenty G. (2013). [Transcutaneous tibial nerve stimulation in the overactive bladder syndrome in patients with Parkinson's syndromes]. Progrès En Urologie: Journal De l'Association Française D'urologie Et De La Société Française D'urologie, 23: 936-939.

  • Pelloux Y. et Baunez C. (2013). Deep brain stimulation for addiction: why the subthalamic nucleus should be favored. Current Opinion in Neurobiology, 23: 713-720.

  • Schuepbach W.M.M., Rau J., Knudsen K., Volkmann J., Krack P., Timmermann L., Hälbig T.D., Hesekamp H., Navarro S.M., Meier N., Falk D., Mehdorn M., Paschen S., Maarouf M., Barbe M.T., Fink G.R., Kupsch A., Gruber D., Schneider G.-H., Seigneuret E., Kistner A., Chaynes P., Ory-Magne F., Brefel Courbon C., Vesper J., Schnitzler A., Wojtecki L., Houeto J.-L., Bataille B., Maltête D., Damier P., Raoul S., Sixel-Doering F., Hellwig D., Gharabaghi A., Krüger R., Pinsker M.O., Amtage F., Régis J.-M., Witjas T., Thobois S., Mertens P., Kloss M., Hartmann A., Oertel W.H., Post B., Speelman H., Agid Y., Schade-Brittinger C., Deuschl G., et EARLYSTIM Study Group (2013). Neurostimulation for Parkinson's disease with early motor complications. The New England Journal of Medicine, 368: 610-622.

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