| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Salvatore Lecca, Miriam Melis, Antonio Luchicchi, Maria Grazia Ennas, Maria Paola Castelli, Anna Lisa Muntoni, Marco Pisti. Effects of drugs of abuse on putative rostromedial tegmental neurons, inhibitory afferents to midbrain dopamine cells. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology. vol 36. issue 3. 2011-05-09. PMID:21048703. |
our results suggest that activity of rmtg neurons is profoundly influenced by drugs of abuse and, as important inhibitory afferents to midbrain da neurons, they might take place in the complex interplay between the neural circuits mediating aversion and reward. |
2011-05-09 |
2023-08-12 |
rat |
| Bo Li, Joaquin Piriz, Martine Mirrione, ChiHye Chung, Christophe D Proulx, Daniela Schulz, Fritz Henn, Roberto Malino. Synaptic potentiation onto habenula neurons in the learned helplessness model of depression. Nature. vol 470. issue 7335. 2011-03-11. PMID:21350486. |
recent studies in monkeys indicate that neurons in the lateral habenula (lhb), a nucleus that mediates communication between forebrain and midbrain structures, can increase their activity when an animal fails to receive an expected positive reward or receives a stimulus that predicts aversive conditions (that is, disappointment or anticipation of a negative outcome). |
2011-03-11 |
2023-08-12 |
rat |
| Satoshi Ikemot. Brain reward circuitry beyond the mesolimbic dopamine system: a neurobiological theory. Neuroscience and biobehavioral reviews. vol 35. issue 2. 2011-02-17. PMID:20149820. |
in addition, studies found roles of non-dopaminergic mechanisms of the supramammillary, rostromedial tegmental and midbrain raphe nuclei in reward. |
2011-02-17 |
2023-08-12 |
rat |
| Hongjoo J Lee, Michela Gallagher, Peter C Hollan. The central amygdala projection to the substantia nigra reflects prediction error information in appetitive conditioning. Learning & memory (Cold Spring Harbor, N.Y.). vol 17. issue 10. 2011-01-21. PMID:20889725. |
in the current study, we examined the role of the cea's connections to two midbrain dopamine regions, the substantia nigra pars compacta (snc) and the ventral tegmental area (vta), in processing cs information when predictions of reward or nonreward were confirmed or disconfirmed. |
2011-01-21 |
2023-08-12 |
rat |
| Miriam Melis, Stefano Carta, Liana Fattore, Stefania Tolu, Sevil Yasar, Steven R Goldberg, Walter Fratta, Uwe Maskos, Marco Pisti. Peroxisome proliferator-activated receptors-alpha modulate dopamine cell activity through nicotinic receptors. Biological psychiatry. vol 68. issue 3. 2010-11-22. PMID:20570248. |
modulation of midbrain dopamine neurons by nicotinic acetylcholine receptors (nachrs) plays an important role in behavior, cognition, motivation, and reward. |
2010-11-22 |
2023-08-12 |
Not clear |
| Tiziano Colibazzi, Jonathan Posner, Zhishun Wang, Daniel Gorman, Andrew Gerber, Shan Yu, Hongtu Zhu, Alayar Kangarlu, Yunsuo Duan, James A Russell, Bradley S Peterso. Neural systems subserving valence and arousal during the experience of induced emotions. Emotion (Washington, D.C.). vol 10. issue 3. 2010-09-03. PMID:20515226. |
separate analyses using a finite impulse response model confirmed these results and revealed that pleasant emotions engaged an additional network that included the midbrain, ventral striatum, and caudate nucleus, all portions of a reward circuit. |
2010-09-03 |
2023-08-12 |
human |
| Clayton Hickey, Leonardo Chelazzi, Jan Theeuwe. Reward changes salience in human vision via the anterior cingulate. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 30. issue 33. 2010-09-03. PMID:20720117. |
other results show that the magnitude of visual bias created by reward is predicted by the response to reward feedback in anterior cingulate cortex, an area with strong connections to dopaminergic structures in the midbrain. |
2010-09-03 |
2023-08-12 |
human |
| Wolfram Schult. Dopamine signals for reward value and risk: basic and recent data. Behavioral and brain functions : BBF. vol 6. 2010-07-15. PMID:20416052. |
previous lesion, electrical self-stimulation and drug addiction studies suggest that the midbrain dopamine systems are parts of the reward system of the brain. |
2010-07-15 |
2023-08-12 |
Not clear |
| Lei Phillip Wang, Fei Li, Xiaoming Shen, Joe Z Tsie. Conditional knockout of NMDA receptors in dopamine neurons prevents nicotine-conditioned place preference. PloS one. vol 5. issue 1. 2010-05-20. PMID:20062537. |
it is known that nicotine triggers tobacco addiction by activating nicotine acetylcholine receptors (nachrs) in the midbrain dopaminergic reward system, primarily via the ventral tegmental area. |
2010-05-20 |
2023-08-12 |
mouse |
| Jonathan P Roiser, Klaas E Stephan, Hanneke E M den Ouden, Karl J Friston, Eileen M Joyc. Adaptive and aberrant reward prediction signals in the human brain. NeuroImage. vol 50. issue 2. 2010-05-11. PMID:19969090. |
as expected, cues associated with high relative to low reward probabilities elicited robust hemodynamic responses in a network of structures previously implicated in motivational salience; the midbrain, in the vicinity of the ventral tegmental area, and regions targeted by its dopaminergic projections, i.e. |
2010-05-11 |
2023-08-12 |
human |
| Jon F Davis, Derrick L Choi, Stephen C Benoi. Insulin, leptin and reward. Trends in endocrinology and metabolism: TEM. vol 21. issue 2. 2010-04-27. PMID:19818643. |
recent evidence suggests that both hormones achieve this degree of regulation by inhibiting the rewarding aspects of feeding behavior, perhaps by signaling within midbrain reward circuits. |
2010-04-27 |
2023-08-12 |
Not clear |
| Marc Guitart-Masip, Nico Bunzeck, Klaas E Stephan, Raymond J Dolan, Emrah Düze. Contextual novelty changes reward representations in the striatum. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 30. issue 5. 2010-03-05. PMID:20130181. |
according to this model, reward responses in ventral striatum or midbrain should be enhanced in the context of novelty even if reward and novelty constitute unrelated, independent events. |
2010-03-05 |
2023-08-12 |
Not clear |
| Christopher A Deister, Mark A Teagarden, Charles J Wilson, Carlos A Paladin. An intrinsic neuronal oscillator underlies dopaminergic neuron bursting. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 29. issue 50. 2010-01-26. PMID:20016105. |
dopaminergic neurons of the ventral midbrain fire high-frequency bursts when animals are presented with unexpected rewards, or stimuli that predict reward. |
2010-01-26 |
2023-08-12 |
Not clear |
| Ian C Webb, Ricardo M Baltazar, Michael N Lehman, Lique M Coole. Bidirectional interactions between the circadian and reward systems: is restricted food access a unique zeitgeber? The European journal of neuroscience. vol 30. issue 9. 2010-01-15. PMID:19878278. |
reward is mediated by a distributed series of midbrain and basal forebrain structures collectively referred to as the brain reward system. |
2010-01-15 |
2023-08-12 |
Not clear |
| Jerylin O Gan, Mark E Walton, Paul E M Phillip. Dissociable cost and benefit encoding of future rewards by mesolimbic dopamine. Nature neuroscience. vol 13. issue 1. 2010-01-08. PMID:19904261. |
reward-predicting cues evoke activity in midbrain dopamine neurons that encodes fundamental attributes of economic value, including reward magnitude, delay and uncertainty. |
2010-01-08 |
2023-08-12 |
rat |
| Milan Joksimovic, Angela Anderegg, Anil Roy, Laura Campochiaro, Beth Yun, Raja Kittappa, Ronald McKay, Rajeshwar Awatraman. Spatiotemporally separable Shh domains in the midbrain define distinct dopaminergic progenitor pools. Proceedings of the National Academy of Sciences of the United States of America. vol 106. issue 45. 2010-01-06. PMID:19850875. |
midbrain dopamine neurons (mda) are important regulators of diverse physiological functions, including movement, attention, and reward behaviors. |
2010-01-06 |
2023-08-12 |
Not clear |
| Dean Mobbs, Demis Hassabis, Ben Seymour, Jennifer L Marchant, Nikolaus Weiskopf, Raymond J Dolan, Christopher D Frit. Choking on the money: reward-based performance decrements are associated with midbrain activity. Psychological science. vol 20. issue 8. 2009-11-30. PMID:19594859. |
concurrent functional magnetic resonance imaging revealed that increased activity in ventral midbrain, a brain area associated with incentive motivation and basic reward responding, correlated with both reduced number of captures and increased number of near-misses associated with imminent high rewards. |
2009-11-30 |
2023-08-12 |
human |
| Andon N Placzek, Tao A Zhang, John A Dan. Age dependent nicotinic influences over dopamine neuron synaptic plasticity. Biochemical pharmacology. vol 78. issue 7. 2009-09-21. PMID:19464268. |
the dopamine (da) system of the ventral midbrain plays a critical role as mammals learn adaptive behaviors driven by environmental salience and reward. |
2009-09-21 |
2023-08-12 |
Not clear |
| Travis E Baker, Clay B Holroy. Which way do I go? Neural activation in response to feedback and spatial processing in a virtual T-maze. Cerebral cortex (New York, N.Y. : 1991). vol 19. issue 8. 2009-09-16. PMID:19073622. |
in 2 human event-related brain potential (erp) experiments, we examined the feedback error-related negativity (fern), an erp component associated with reward processing by the midbrain dopamine system, and the n170, an erp component thought to be generated by the medial temporal lobe (mtl), to investigate the contributions of these neural systems toward learning to find rewards in a "virtual t-maze" environment. |
2009-09-16 |
2023-08-12 |
human |
| Masayuki Matsumoto, Okihide Hikosak. Two types of dopamine neuron distinctly convey positive and negative motivational signals. Nature. vol 459. issue 7248. 2009-08-05. PMID:19448610. |
midbrain dopamine neurons are activated by reward or sensory stimuli predicting reward. |
2009-08-05 |
2023-08-12 |
monkey |