| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Henry W Chase, Mary L Phillip. Elucidating neural network functional connectivity abnormalities in bipolar disorder: toward a harmonized methodological approach. Biological psychiatry. Cognitive neuroscience and neuroimaging. vol 1. issue 3. 2019-11-20. PMID:27453953. |
we also describe other themes, including an emerging literature examining reward circuitry, which has highlighted abnormal functional interactions between the ventral striatum and medial prefrontal cortex, as well as the advent of examining global network abnormalities in bd. |
2019-11-20 |
2023-08-13 |
Not clear |
| Susana S Correia, Anna G McGrath, Allison Lee, Ann M Graybiel, Ki A Goosen. Amygdala-ventral striatum circuit activation decreases long-term fear. eLife. vol 5. 2019-11-20. PMID:27671733. |
in humans, activation of the ventral striatum, a region associated with reward processing, is associated with the extinction of fear, a goal in the treatment of fear-related disorders. |
2019-11-20 |
2023-08-13 |
Not clear |
| Roselinde H Kaiser, Michael T Treadway, Dustin W Wooten, Poornima Kumar, Franziska Goer, Laura Murray, Miranda Beltzer, Pia Pechtel, Alexis Whitton, Andrew L Cohen, Nathaniel M Alpert, Georges El Fakhri, Marc D Normandin, Diego A Pizzagall. Frontostriatal and Dopamine Markers of Individual Differences in Reinforcement Learning: A Multi-modal Investigation. Cerebral cortex (New York, N.Y. : 1991). vol 28. issue 12. 2019-11-12. PMID:29121332. |
prior studies have shown that dopamine (da) functioning in frontostriatal circuits supports reinforcement learning (rl), as phasic da activity in ventral striatum signals unexpected reward and may drive coordinated activity of striatal and orbitofrontal regions that support updating of action plans. |
2019-11-12 |
2023-08-13 |
Not clear |
| Ana Marques, Franck Durif, Pierre-Olivier Fernagu. Impulse control disorders in Parkinson's disease. Journal of neural transmission (Vienna, Austria : 1996). vol 125. issue 8. 2019-11-04. PMID:29511827. |
patients with icd display altered processing of reward and loss, and decisional bias associated with altered activity in cortical and subcortical areas such as the orbitofrontal cortex, amygdala, insula, anterior cingular cortex, and ventral striatum. |
2019-11-04 |
2023-08-13 |
human |
| Katherine Rice Warnell, Eleonora Sadikova, Elizabeth Redca. Let's chat: developmental neural bases of social motivation during real-time peer interaction. Developmental science. vol 21. issue 3. 2019-10-16. PMID:28748572. |
results indicated that during initiation and reply, key components of reward circuitry (e.g., ventral striatum) were more active for the peer than the computer trials. |
2019-10-16 |
2023-08-13 |
Not clear |
| Aldo Quattrone, Gaetano Barbagallo, Antonio Cerasa, A Jon Stoess. Neurobiology of placebo effect in Parkinson's disease: What we have learned and where we are going. Movement disorders : official journal of the Movement Disorder Society. vol 33. issue 8. 2019-09-03. PMID:30230624. |
in conclusion, although the neural network underlying the placebo effect in pd has been largely confirmed and accepted, what remains to be established is how, when, and where the expectation of reward (mediated by the ventral striatum) interacts with the primary motor system (mediated by the dorsal striatum) to induce clinical improvement in motor symptoms. |
2019-09-03 |
2023-08-13 |
Not clear |
| Romuald Girard, Ignacio Obeso, Stéphane Thobois, Seongmin A Park, Tiphaine Vidal, Emilie Favre, Miguel Ulla, Emmanuel Broussolle, Paul Krack, Franck Durif, Jean-Claude Drehe. Wait and you shall see: sexual delay discounting in hypersexual Parkinson's disease. Brain : a journal of neurology. vol 142. issue 1. 2019-08-20. PMID:30590514. |
at the brain system level, this effect was paralleled by the fact that pd+hs, as compared to controls and pd - hs, showed a negative correlation between subjective value of the delayed reward and activity of medial prefrontal cortex and ventral striatum. |
2019-08-20 |
2023-08-13 |
human |
| David A Kareke. Missing motoric manipulations: rethinking the imaging of the ventral striatum and dopamine in human reward. Brain imaging and behavior. vol 13. issue 2. 2019-08-12. PMID:29374354. |
missing motoric manipulations: rethinking the imaging of the ventral striatum and dopamine in human reward. |
2019-08-12 |
2023-08-13 |
human |
| Matthijs G Bossong, Robin Wilson, Elizabeth Appiah-Kusi, Philip McGuire, Sagnik Bhattacharyy. Human Striatal Response to Reward Anticipation Linked to Hippocampal Glutamate Levels. The international journal of neuropsychopharmacology. vol 21. issue 7. 2019-07-17. PMID:29444252. |
it is thought that reward is regulated mainly by dopamine transmission in the ventral striatum. |
2019-07-17 |
2023-08-13 |
human |
| Seng Bum Michael Yoo, Brianna J Sleezer, Benjamin Y Hayde. Robust Encoding of Spatial Information in Orbitofrontal Cortex and Striatum. Journal of cognitive neuroscience. vol 30. issue 6. 2019-04-22. PMID:29561237. |
we find robust encoding of the spatial position of both offers and choices in two core reward regions, orbitofrontal area 13 and ventral striatum, as well as in dorsal striatum of macaques. |
2019-04-22 |
2023-08-13 |
Not clear |
| Stéfan du Plessis, Meija Bossert, Matthijs Vink, Leigh van den Heuvel, Soraya Bardien, Robin Emsley, Chanelle Buckle, Soraya Seedat, Jonathan Car. Reward processing dysfunction in ventral striatum and orbitofrontal cortex in Parkinson's disease. Parkinsonism & related disorders. vol 48. 2019-04-16. PMID:29307561. |
reward processing dysfunction in ventral striatum and orbitofrontal cortex in parkinson's disease. |
2019-04-16 |
2023-08-13 |
Not clear |
| Elsa Fouragnan, Chris Retzler, Marios G Philiastide. Separate neural representations of prediction error valence and surprise: Evidence from an fMRI meta-analysis. Human brain mapping. vol 39. issue 7. 2019-04-15. PMID:29575249. |
the first valence network (negative > positive) involved areas regulating alertness and switching behaviours such as the midcingulate cortex, the thalamus and the dorsolateral prefrontal cortex whereas the second valence network (positive > negative) encompassed regions of the human reward circuitry such as the ventral striatum and the ventromedial prefrontal cortex. |
2019-04-15 |
2023-08-13 |
human |
| Mushfa Yousuf, Marcus Heldmann, Martin Göttlich, Thomas F Münte, Nuria Doñamayo. Neural processing of food and monetary rewards is modulated by metabolic state. Brain imaging and behavior. vol 12. issue 5. 2019-04-01. PMID:29243121. |
irrespective of incentive type, both food and monetary rewards engaged ventral striatum, medial orbitofrontal cortex and amygdala, regions that have been previously associated with reward processing. |
2019-04-01 |
2023-08-13 |
human |
| Sylvia A Morelli, Brian Knutson, Jamil Zak. Neural sensitivity to personal and vicarious reward differentially relates to prosociality and well-being. Social cognitive and affective neuroscience. vol 13. issue 8. 2019-03-15. PMID:30016481. |
all types of reward outcomes engaged the ventral striatum, but neural sensitivity to rewards for the self and for others were uncorrelated across individuals. |
2019-03-15 |
2023-08-13 |
human |
| Amanda C Burton, Gregory B Bissonette, Daniela Vazquez, Elyse M Blume, Maria Donnelly, Kendall C Heatley, Abhishek Hinduja, Matthew R Roesc. Previous cocaine self-administration disrupts reward expectancy encoding in ventral striatum. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology. vol 43. issue 12. 2019-03-11. PMID:29728645. |
previous cocaine self-administration disrupts reward expectancy encoding in ventral striatum. |
2019-03-11 |
2023-08-13 |
rat |
| J M C van Leeuwen, M Vink, M Joëls, R S Kahn, E J Hermans, C H Vinker. Increased responses of the reward circuitry to positive task feedback following acute stress in healthy controls but not in siblings of schizophrenia patients. NeuroImage. vol 184. 2019-03-06. PMID:30243958. |
neural responses following stress differed between controls and siblings during reward feedback (group × stress interaction ofc p = 0.003, ventral striatum p = 0.031), showing increased ventral striatum and ofc responses following stress in healthy controls only. |
2019-03-06 |
2023-08-13 |
Not clear |
| F Devoto, L Zapparoli, R Bonandrini, M Berlingeri, A Ferrulli, L Luzi, G Banfi, E Paules. Hungry brains: A meta-analytical review of brain activation imaging studies on food perception and appetite in obese individuals. Neuroscience and biobehavioral reviews. vol 94. 2019-02-11. PMID:30071209. |
consistent with a reward surfeit hypothesis, obese individuals exhibit a ventral striatum hyper-responsivity in response to pure tastes, particularly when fasting. |
2019-02-11 |
2023-08-13 |
human |
| Kesong H. Neural activity to threat in ventromedial prefrontal cortex correlates with individual differences in anxiety and reward processing. Neuropsychologia. vol 117. 2019-02-08. PMID:29981291. |
path analysis revealed a closely interconnected network of vmpfc (cortical) and vs (ventral striatum, subcortical) which predicted reward processing. |
2019-02-08 |
2023-08-13 |
human |
| Johann D Kruschwitz, Lea Waller, David List, David Wisniewski, Vera U Ludwig, Franziska Korb, Uta Wolfensteller, Thomas Goschke, Henrik Walte. Anticipating the good and the bad: A study on the neural correlates of bivalent emotion anticipation and their malleability via attentional deployment. NeuroImage. vol 183. 2019-02-06. PMID:30145207. |
in these studies, we (i) demonstrate that brain areas involved in anticipating positive (ventral striatum) and negative (anterior insula) emotional events are co-activated when anticipating the occurrence of both punishment and reward at the same time and (ii) provide evidence that attention on either the positive or the negative correlates with a shift in activations of these co-activated neural networks and associated anticipated emotions towards either the positive (increased activity in ventral striatum, ventromedial prefrontal cortex, posterior cingulate cortex) or the negative (increased activity in insula) aspect of the upcoming bivalent outcome. |
2019-02-06 |
2023-08-13 |
Not clear |
| Dada Held-Poschardt, Philipp Sterzer, Florian Schlagenhauf, Corinna Pehrs, Andre Wittmann, Meline Stoy, Claudia Hägele, Brian Knutson, Andreas Heinz, Andreas Ströhl. Reward and loss anticipation in panic disorder: An fMRI study. Psychiatry research. Neuroimaging. vol 271. 2019-01-09. PMID:29169660. |
anticipatory anxiety and harm avoidance are essential features of panic disorder (pd) and may involve deficits in the reward system of the brain, in particular in the ventral striatum. |
2019-01-09 |
2023-08-13 |
Not clear |