| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Xiaolan Yang, Mei Gao, Jinchuan Shi, Hang Ye, Shu Che. Modulating the Activity of the DLPFC and OFC Has Distinct Effects on Risk and Ambiguity Decision-Making: A tDCS Study. Frontiers in psychology. vol 8. 2020-10-01. PMID:28878714. |
neuroscientific studies suggest that the dorsolateral prefrontal cortex (dlpfc) and the orbital frontal cortex (ofc) play significant roles in human decision making under uncertainty. |
2020-10-01 |
2023-08-13 |
human |
| Marcos Ucha, David Roura-Martínez, Ana Contreras, Sheyla Pinto-Rivero, Javier Orihuel, Emilio Ambrosio, Alejandro Higuera-Mata. Impulsive Action and Impulsive Choice Are Differentially Associated With Gene Expression Variations of the GABA Frontiers in behavioral neuroscience. vol 13. 2020-10-01. PMID:30842730. |
impulsive action and impulsive choice are differentially associated with gene expression variations of the gaba the orbitofrontal cortex (ofc) is a key brain region for decision-making, action control and impulsivity. |
2020-10-01 |
2023-08-13 |
rat |
| Matthew A Albrecht, James A Waltz, Michael J Frank, James M Gol. Probability and magnitude evaluation in schizophrenia. Schizophrenia research. Cognition. vol 5. 2020-09-30. PMID:28740816. |
alterations in reinforcement learning and decision making in schizophrenia have been linked with orbitofrontal cortex (ofc) dysfunction, a region critical for weighing reward magnitude in the calculation of expected value (ev). |
2020-09-30 |
2023-08-13 |
Not clear |
| Nils Kolling, Jill X O'Reill. State-change decisions and dorsomedial prefrontal cortex: the importance of time. Current opinion in behavioral sciences. vol 22. 2020-09-30. PMID:30123818. |
this proposed function of dmpfc is placed in contrast to other evaluative systems such as the orbitofrontal cortex, which is important for careful deliberation within a specific model-space or option-space and within a decision strategy. |
2020-09-30 |
2023-08-13 |
Not clear |
| Loreta Medina, Antonio Abellán, Ester Desfili. Evolution of Pallial Areas and Networks Involved in Sociality: Comparison Between Mammals and Sauropsids. Frontiers in physiology. vol 10. 2020-09-30. PMID:31354528. |
in primates, there are two major brain networks associated to sociality: (1) one related to perception and decision-making, involving the pallial amygdala (with the basolateral complex as a major component), the temporal and temporoparietal neocortex, and the orbitofrontal cortex; (2) another one related to affiliation, including the medial extended amygdala, the ventromedial prefrontal and anterior cingulate cortices, the ventromedial striatum (largely nucleus accumbens), and the ventromedial hypothalamus. |
2020-09-30 |
2023-08-13 |
Not clear |
| Daniel Freinhofer, Philipp Schwartenbeck, Natasha Thon, Tina Eigenberger, Wolfgang Aichhorn, Melanie Lenger, Friedrich M Wurst, Martin Kronbichle. Deficient Decision Making in Pathological Gamblers Correlates With Gray Matter Volume in Medial Orbitofrontal Cortex. Frontiers in psychiatry. vol 11. 2020-09-28. PMID:32194455. |
deficient decision making in pathological gamblers correlates with gray matter volume in medial orbitofrontal cortex. |
2020-09-28 |
2023-08-13 |
human |
| James D Howard, Thorsten Kahn. Causal investigations into orbitofrontal control of human decision making. Current opinion in behavioral sciences. vol 38. 2020-09-28. PMID:32864400. |
although it is widely accepted that the orbitofrontal cortex (ofc) is important for decision making, its precise contribution to behavior remains a topic of debate. |
2020-09-28 |
2023-08-13 |
human |
| Abhishek Banerjee, Giuseppe Parente, Jasper Teutsch, Christopher Lewis, Fabian F Voigt, Fritjof Helmche. Value-guided remapping of sensory cortex by lateral orbitofrontal cortex. Nature. vol 585. issue 7824. 2020-09-21. PMID:32884146. |
adaptive behaviour crucially depends on flexible decision-making, which in mammals relies on the frontal cortex, specifically the orbitofrontal cortex (ofc) |
2020-09-21 |
2023-08-13 |
Not clear |
| Daniel L Kimmel, Gamaleldin F Elsayed, John P Cunningham, William T Newsom. Value and choice as separable and stable representations in orbitofrontal cortex. Nature communications. vol 11. issue 1. 2020-08-31. PMID:32651373. |
orbitofrontal cortex (ofc) is implicated in value-based decision-making, but it is unclear how downstream circuits read out complex ofc responses into separate representations of the relevant variables to support distinct functions at specific times. |
2020-08-31 |
2023-08-13 |
monkey |
| Matthew P H Gardner, Jessica C Conroy, Davied C Sanchez, Jingfeng Zhou, Geoffrey Schoenbau. Real-Time Value Integration during Economic Choice Is Regulated by Orbitofrontal Cortex. Current biology : CB. vol 29. issue 24. 2020-08-17. PMID:31813612. |
neural correlates implicate the orbitofrontal cortex (ofc) in value-based or economic decision making [1-3]. |
2020-08-17 |
2023-08-13 |
rat |
| Alonzo J Whyte, Henry W Kietzman, Andrew M Swanson, Laura M Butkovich, Britton R Barbee, Gary J Bassell, Christina Gross, Shannon L Gourle. Reward-Related Expectations Trigger Dendritic Spine Plasticity in the Mouse Ventrolateral Orbitofrontal Cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 39. issue 23. 2020-06-22. PMID:30940719. |
an essential aspect of goal-directed decision-making is selecting actions based on anticipated consequences, a process that involves the orbitofrontal cortex (ofc) and potentially, the plasticity of dendritic spines in this region. |
2020-06-22 |
2023-08-13 |
mouse |
| Veit Stuphor. Decision Making: How Is Information Represented in Orbitofrontal Cortex? Current biology : CB. vol 30. issue 1. 2020-06-15. PMID:31910376. |
decision making: how is information represented in orbitofrontal cortex? |
2020-06-15 |
2023-08-13 |
Not clear |
| Tsuyoshi Setogawa, Takashi Mizuhiki, Narihisa Matsumoto, Fumika Akizawa, Ryosuke Kuboki, Barry J Richmond, Munetaka Shidar. Neurons in the monkey orbitofrontal cortex mediate reward value computation and decision-making. Communications biology. vol 2. 2020-05-13. PMID:30963114. |
neurons in the monkey orbitofrontal cortex mediate reward value computation and decision-making. |
2020-05-13 |
2023-08-13 |
monkey |
| Nicolas W Schuck, Yael Ni. Sequential replay of nonspatial task states in the human hippocampus. Science (New York, N.Y.). vol 364. issue 6447. 2020-03-27. PMID:31249030. |
hippocampal sequentiality correlated with the fidelity of task representations recorded in the orbitofrontal cortex during decision-making, which were themselves related to better task performance. |
2020-03-27 |
2023-08-13 |
human |
| Edmund T Roll. The orbitofrontal cortex and emotion in health and disease, including depression. Neuropsychologia. vol 128. 2020-02-28. PMID:28951164. |
whereas the orbitofrontal cortex provides a representation of reward or affective value on a continuous scale, areas beyond the orbitofrontal cortex such as the medial prefrontal cortex area 10 are involved in binary decision-making when a choice must be made. |
2020-02-28 |
2023-08-13 |
Not clear |
| Edmund T Roll. The orbitofrontal cortex and emotion in health and disease, including depression. Neuropsychologia. vol 128. 2020-02-28. PMID:28951164. |
for this decision-making, the orbitofrontal cortex provides a representation of the value of each specific reward on the same scale, with no conversion to a common currency. |
2020-02-28 |
2023-08-13 |
Not clear |
| Yansong Li, Zixiang Wang, Isabelle Boileau, Jean-Claude Dreher, Sofie Gelskov, Alexander Genauck, Juho Joutsa, Valtteri Kaasinen, José C Perales, Nina Romanczuk-Seiferth, Cristian M Ruiz de Lara, Hartwig R Siebner, Ruth J van Holst, Tim van Timmeren, Guillaume Sescouss. Altered orbitofrontal sulcogyral patterns in gambling disorder: a multicenter study. Translational psychiatry. vol 9. issue 1. 2020-02-28. PMID:31383841. |
gambling disorder is a serious psychiatric condition characterized by decision-making and reward processing impairments that are associated with dysfunctional brain activity in the orbitofrontal cortex (ofc). |
2020-02-28 |
2023-08-13 |
Not clear |
| Randall C O'Reilly, Jacob Russin, Seth A Her. Computational models of motivated frontal function. Handbook of clinical neurology. vol 163. 2020-02-26. PMID:31590738. |
we focus here on the specific case of how different frontal areas support goal-directed, motivated decision-making, by representing three essential types of information: possible plans of action (in more dorsal and lateral frontal areas), affectively significant outcomes of those action plans (in ventral, medial frontal areas including the orbital frontal cortex), and the overall utility of a given plan compared to other possible courses of action (in anterior cingulate cortex). |
2020-02-26 |
2023-08-13 |
Not clear |
| M A Kreher, S A Johnson, J-M Mizell, D K Chetram, D T Guenther, S D Lovett, B Setlow, J L Bizon, S N Burke, A P Maure. The perirhinal cortex supports spatial intertemporal choice stability. Neurobiology of learning and memory. vol 162. 2019-12-27. PMID:31125611. |
the prc is densely connected to the amygdala and orbital frontal cortex, regions that have been implicated in reward-based decision making, as well as the hippocampus. |
2019-12-27 |
2023-08-13 |
rat |
| S Rahman, B J Sahakia, R N Cardinal, R Rogers, T Robbin. Decision making and neuropsychiatry. Trends in cognitive sciences. vol 5. issue 6. 2019-11-20. PMID:11390298. |
a neural network involving the orbitofrontal cortex, ventral striatum and modulatory ascending neurotransmitter systems has been identified as having a fundamental role in decision making and in the neural basis of neuropsychiatric diseases. |
2019-11-20 |
2023-08-12 |
Not clear |