Difference between revisions of "Nural decision makeing - brain"
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| − | [[seratonine|Seratonine]] deplition<ref>Denk F, Walton M, Jennings K, Sharp T, Rushworth M, Bannerman D. Differential involvement of serotonin and dopamine systems in cost-benefit decisions about delay or effort. Psychopharmacology. 2005;179: 587– 596.</ref> and [[NMDA]] antagonism <ref>Floresco SB, Tse MTL, Ghods-Sharifi S. Dopaminergic and glutamatergic regulation of effort-and delay-based decision-making.</ref>promote impulsivity | + | [[seratonine|Seratonine]] deplition<ref>Denk F, Walton M, Jennings K, Sharp T, Rushworth M, Bannerman D. Differential involvement of serotonin and dopamine systems in cost-benefit decisions about delay or effort. Psychopharmacology. 2005;179: 587– 596.</ref> and [[NMDA]] antagonism <ref>Floresco SB, Tse MTL, Ghods-Sharifi S. Dopaminergic and glutamatergic regulation of effort-and delay-based decision-making.</ref>promote impulsivity |
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| + | ==Actions - Anticepation== | ||
| + | [[OFC]] is predominantly associated with ([[learning|learned]]) [[value|valuation]] of (reinforcing) stimuli, but there is evidence of a distinct process in [[ACC]] (which projects anatomically to premotor regions) of [[value|value encoding]] for reinforced actions, and ACC sulcus may be required for learning of [[action]] values<ref>Kennerley SW, Walton ME, Behrens TEJ, Buckley MJ, Rushworth MFS. Optimal decision-making and the anterior cingulate cortex. Nature Neuroscience. 2006;9: 940– 947.</ref> | ||
==Refrerences== | ==Refrerences== | ||
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[[category: brain]] | [[category: brain]] | ||
| − | [[category: decision | + | [[category: decision making]] |
| + | [[category: decision making model]] | ||
Latest revision as of 09:18, 4 August 2015
Hormones effects
Food
There are substantial hormonal influences on behavior. For example, circulating hormones such as leptin and ghrelin act as satiety and hunger signals, reporting the status of body energy reserves (e.g. adipose tissue), energy requirements, and acute nutrient intake to hypothalamic and midbrain targets in the central nervous system that regulate feeding behavior[1]. They also act on brain regions (in particular dopaminoceptive areas) implicated in human decision-making[2][3].
Metabolic state itself may thus directly affect the neural expression of preference, exemplified by findings that physiological state influence preferences for economic risk in humans[4]
Impulsivity
Seratonine deplition[5] and NMDA antagonism [6]promote impulsivity
Actions - Anticepation
OFC is predominantly associated with (learned) valuation of (reinforcing) stimuli, but there is evidence of a distinct process in ACC (which projects anatomically to premotor regions) of value encoding for reinforced actions, and ACC sulcus may be required for learning of action values[7]
Refrerences
- ↑ Korotkova, Sergeeva, Eriksson et al., 2003
- ↑ Hommel, Trinko, Sears et al., 2006
- ↑ Krügel, Schraft, Kittner et al., 2003
- ↑ Symmonds M, Emmanuel J, Drew M, Batterham R, Dolan R. Metabolic state alters economic decision-making under risk in humans. PLoS ONE. 2010b; 5: e11090.
- ↑ Denk F, Walton M, Jennings K, Sharp T, Rushworth M, Bannerman D. Differential involvement of serotonin and dopamine systems in cost-benefit decisions about delay or effort. Psychopharmacology. 2005;179: 587– 596.
- ↑ Floresco SB, Tse MTL, Ghods-Sharifi S. Dopaminergic and glutamatergic regulation of effort-and delay-based decision-making.
- ↑ Kennerley SW, Walton ME, Behrens TEJ, Buckley MJ, Rushworth MFS. Optimal decision-making and the anterior cingulate cortex. Nature Neuroscience. 2006;9: 940– 947.