Affect modulates appetite-related brain activity to images of food.
about
Citicoline affects appetite and cortico-limbic responses to images of high-calorie foodsIn search of a human self-regulation systemPoor ability to resist tempting calorie rich food is linked to altered balance between neural systems involved in urge and self-controlHigh-caloric and chocolate stimuli processing in healthy humans: an integration of functional imaging and electrophysiological findings.Neural responses to visual food cues according to weight status: a systematic review of functional magnetic resonance imaging studies.Brain imaging studies of appetite in the context of obesity and the menstrual cycle.Reanalysis of the obesity-related attenuation in the left dorsolateral prefrontal cortex response to a satiating meal using gyral regions-of-interest.Sex differences in cerebral responses to images of high versus low-calorie food.Neural responses to visual food cues: insights from functional magnetic resonance imaging.Connectivity Study of the Neuromechanism of Acute Acupuncture Needling during fMRI in "Overweight" Subjects.Probing the Dynamic Updating of Value in Schizophrenia Using a Sensory-Specific Satiety Paradigm.Functional magnetic resonance imaging analysis of food-related brain activity in patients with lipodystrophy undergoing leptin replacement therapy.The FoodCast research image database (FRIDa).Characterization of Face-Selective Patches in Orbitofrontal Cortex.Increased colonic propionate reduces anticipatory reward responses in the human striatum to high-energy foods.Separable substrates for anticipatory and consummatory food chemosensationFemale emotional eaters show abnormalities in consummatory and anticipatory food reward: a functional magnetic resonance imaging study.Inducing negative affect increases the reward value of appetizing foods in dieters.Psychometrics of the Eating in Emotional Situations Questionnaire (EESQ) among low-income Latino elementary-school children.Using the Neuroscience of Obesity, Eating Behavior, and Sleep to Inform the Neural Mechanisms of Night Eating Syndrome.Intrinsic brain subsystem associated with dietary restraint, disinhibition and hunger: an fMRI study.Emotional eating and routine restraint scores are associated with activity in brain regions involved in urge and self-control.Cortico-limbic responsiveness to high-calorie food images predicts weight status among women.The emotional eating and negative food relationship experiences of obese and overweight adults.Sibutramine promotes amygdala activity under fasting conditions in obese women.Positive affect modulates activity in the visual cortex to images of high calorie foods.Behavioral and neural valuation of foods is driven by implicit knowledge of caloric content.Food perception at lunchtime does not depend on the nutritional and perceived characteristics of breakfast.High-fat diet-related stimulation of sweetness desire is greater in women than in men despite high vegetable intake.Appetite at high altitude: an fMRI study on the impact of prolonged high-altitude residence on gustatory neural processing.Reward activity in satiated overweight women is decreased during unbiased viewing but increased when imagining taste: an event-related fMRI study.
P2860
Q24602094-41582497-FD6A-4C76-B65C-DC8985EB0075Q28083576-94A75827-8563-49C3-914B-CE40469381F0Q28655546-2E003F3A-B64E-4CAA-926B-71BDDBDCDD8CQ30735674-49E55403-746A-4DDC-935A-AE010CBECC1FQ30953931-39C3B12F-C3BC-4CDB-83EC-64B536849246Q33516301-5321831B-A4A0-4846-AB54-197CC0547616Q33591995-2415588D-F982-4E66-A029-895840CCED3AQ33863031-791B26CC-0802-4936-8C82-FCA9F034FE07Q34561733-822EA93F-5601-4318-9B90-E0AADD92C8B9Q35188185-773FC2E9-D89C-4CE1-94CE-1464EA86723CQ35950820-3005C42D-48F9-465C-80CB-A7FDCB361338Q36293562-F76CDBCA-6BF5-48F9-B661-4CB0BDE91C08Q36647923-529C9B79-E1FB-403F-B124-E0E21A73F3A4Q36999843-1BFE24AE-2FD1-425B-A79E-3D004C5AC04BQ37034605-CD47A72F-1850-421A-80C9-A912FD2F7541Q37159247-56C4DED7-41D0-48B9-9872-396A015D9356Q37336128-E90E4B49-5A74-4400-A306-929C0E4F3191Q37358423-2C71E147-72C2-4A51-89B0-1CBB7ADC2B02Q37627167-A2DA3EF6-437F-432D-90EA-EF3A5234DB39Q39243763-819B8C6A-8DFE-43C0-B86C-009127A4976BQ40010209-B765CE64-C6EE-4F3B-910D-7FF0B4F6E809Q42391054-92AB40D5-2F55-4ADA-B664-F47940092DDEQ47250738-71E936A1-6C7A-433F-9D53-62B34B8D9F97Q47350184-AAAA7E2A-976C-4ADB-919A-DF6384952EFEQ48021282-ECE0E67B-9D26-4464-A69C-B4A7AA2C9AA9Q48186080-B075979F-CBA1-4E78-8B47-C31A8D53B671Q48489867-67FD13C1-ED34-435E-9EBA-F6157B5D29E9Q49332600-FC7992A0-AF4D-4F57-A233-28DCEEDDF24AQ50650334-C8D35373-A116-41BB-A203-364E75180006Q50652281-1BD8BBCD-719D-40DE-AF7E-B1BF603F15AAQ51848196-0A03464E-2519-4569-9BE4-DE3EF2CC1424
P2860
Affect modulates appetite-related brain activity to images of food.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Affect modulates appetite-related brain activity to images of food.
@en
Affect modulates appetite-related brain activity to images of food.
@nl
type
label
Affect modulates appetite-related brain activity to images of food.
@en
Affect modulates appetite-related brain activity to images of food.
@nl
prefLabel
Affect modulates appetite-related brain activity to images of food.
@en
Affect modulates appetite-related brain activity to images of food.
@nl
P356
P1476
Affect modulates appetite-related brain activity to images of food
@en
P2093
Deborah A Yurgelun-Todd
P2860
P304
P356
10.1002/EAT.20240
P577
2006-07-01T00:00:00Z