Control of food consumption by learned cues: a forebrain-hypothalamic network.
about
Analysis of the network of feeding neuroregulators using the Allen Brain AtlasWhich cue to "want?" Central amygdala opioid activation enhances and focuses incentive salience on a prepotent reward cueBrain imaging studies of appetite in the context of obesity and the menstrual cycle.Food seeking in spite of harmful consequences is under prefrontal cortical noradrenergic control.Dynamic expression of tyrosine hydroxylase mRNA and protein in neurons of the striatum and amygdala of mice, and experimental evidence of their multiple embryonic origin.The tempted brain eats: pleasure and desire circuits in obesity and eating disorders.The role of the lateral hypothalamus and orexin in ingestive behavior: a model for the translation of past experience and sensed deficits into motivated behaviors.Prelimbic and infralimbic neurons signal distinct aspects of appetitive instrumental behavior.Central, but not basolateral, amygdala is critical for control of feeding by aversive learned cuesEffective connectivity of a reward network in obese women.Learning and the motivation to eat: forebrain circuitry.Implications of learning theory for developing programs to decrease overeating.A model of food reward learning with dynamic reward exposure.Role of ventral medial prefrontal cortex in incubation of cocaine craving.Contributions of the hippocampus and medial prefrontal cortex to energy and body weight regulationLong-lasting sensitization of reward-directed behavior by amphetamine.The biology of binge eating.The Pavlovian power of palatable food: lessons for weight-loss adherence from a new rodent model of cue-induced overeating.Mu-opioid stimulation in rat prefrontal cortex engages hypothalamic orexin/hypocretin-containing neurons, and reveals dissociable roles of nucleus accumbens and hypothalamus in cortically driven feeding.Elucidation of the anatomy of a satiety network: Focus on connectivity of the parabrachial nucleus in the adult rat.Lateral Hypothalamic GABAergic Neurons Encode Reward Predictions that Are Relayed to the Ventral Tegmental Area to Regulate Learning.Prefrontal Cortical Opioids and Dysregulated Motivation: A Network Hypothesis.Changes in Appetitive Associative Strength Modulates Nucleus Accumbens, But Not Orbitofrontal Cortex Neuronal Ensemble Excitability.Signaling through the ghrelin receptor modulates hippocampal function and meal anticipation in mice.Disruption of cue-potentiated feeding in mice with blocked ghrelin signaling.Induction of hyperphagia and carbohydrate intake by μ-opioid receptor stimulation in circumscribed regions of frontal cortex.Insulin and hippocampus activation in response to images of high-calorie food in normal weight and obese adolescents.Ventromedial prefrontal cortex mediates sex differences in persistent cognitive drive for food.Food addiction and obesity: evidence from bench to bedside.Neurosystems linking corticolimbic and hypothalamic pathways in energy balance: view from the Chair.Obesity: The need to eat--overruling the homeostatic control of feeding.Contribution of the amygdala, but not orbitofrontal or medial prefrontal cortices, to the expression of flavour preferences in marmoset monkeys.Dynamic interplay among homeostatic, hedonic, and cognitive feedback circuits regulating body weight.The neurobiology of appetite: hunger as addiction.
P2860
Q24657212-C5A9BB18-0592-4027-8400-937E50F4A974Q30492657-FC44D04A-3DB2-4C72-8DC4-0CA61286F88FQ33516301-A7CF509D-505A-4304-95B3-FEC18C6D49DFQ33530232-CFB61441-9DCF-43E2-A78C-15B07067F915Q33620303-C31A0F59-44B8-4650-AE84-9E66302ED274Q34032576-E7DEFD8B-6B86-4630-B475-320A768B5784Q34501494-612A3674-A138-4817-BE52-92612AE13370Q34608692-24BAB708-2D2F-4744-B6C3-C7764E6E26AEQ35876001-74814492-3978-4802-B8E3-167C0BA975F6Q36231526-9B0BD823-9179-4019-893F-42AE30986379Q36245127-838F4D46-0D97-4145-B53D-B2A89A8FB362Q36302972-0701AF6E-64D4-4793-AE44-DDED9A6B2EC0Q36310288-722F95CF-201D-49CD-BDA7-9D4BE00E9035Q37082559-7133C712-325F-4DFB-A913-F9D991EDA242Q37114300-886AD3F8-57A0-49C2-B76B-E0A0BF5C416FQ37188608-581230B0-952D-46FF-B642-3B9D378F2ABFQ37222947-3F684C2A-F11A-4521-915D-1F1659D60361Q37229773-9ED16E55-5BE4-4AA0-A1B4-C86B76ACEBC5Q37325389-36E8B5CC-DFF9-4773-AE4A-D8F6C10A3BB7Q37660893-4B986259-C5C2-4578-9EC0-FF010E7DF652Q38687621-EAC5CE9B-90E7-40C3-94B0-51833ADD34ECQ38846230-4451EF2C-2573-4BED-8284-E5EE4A864CF1Q38954589-927556C4-A0C3-4381-B35F-03CDF3B11503Q41896578-29B17575-1169-47CE-A206-4E4CCE772957Q42094875-C9AB0727-06AA-41A1-9F34-6201CCFD6307Q42789439-14E4080A-A2CB-4617-B5A4-5499F23252DDQ43836221-90B5FB0F-5838-4835-BA41-DF1BFCFF8E1EQ48113080-ACE145AA-8393-4AAB-A28A-33E6BF5E653FQ48117503-B9F745A8-22AA-4ABC-82E9-7627AD595328Q48273958-412B25DA-EDBF-488C-9CB3-7BC104A5B6D9Q48846982-3F67CDBE-16F1-48F8-ABB8-AC245D034269Q48945856-F55C0C22-EE85-4B60-9EBE-E82E51300E7EQ51834513-51E49DBD-0F5B-4437-A92B-13B1AF2039C1Q52294801-F2A2FCF4-AE19-4D31-A16D-E63AB462AA9A
P2860
Control of food consumption by learned cues: a forebrain-hypothalamic network.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@ast
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@en
type
label
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@ast
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@en
prefLabel
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@ast
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@en
P2860
P1476
Control of food consumption by learned cues: a forebrain-hypothalamic network.
@en
P2093
Gorica D Petrovich
Michela Gallagher
P2860
P304
P356
10.1016/J.PHYSBEH.2007.04.014
P407
P577
2007-04-19T00:00:00Z