The effects of exercise on the neuronal response to food cues.
about
Does Habitual Physical Activity Increase the Sensitivity of the Appetite Control System? A Systematic ReviewElevated energy intake is correlated with hyperresponsivity in attentional, gustatory, and reward brain regions while anticipating palatable food receipt.A functional neuroimaging review of obesity, appetitive hormones and ingestive behavior.Does the method of weight loss effect long-term changes in weight, body composition or chronic disease risk factors in overweight or obese adults? A systematic review.Neural responses to visual food cues: insights from functional magnetic resonance imaging.Exercise-trained men and women: role of exercise and diet on appetite and energy intake.Effects of reduced weight maintenance and leptin repletion on functional connectivity of the hypothalamus in obese humans.Midbrain response to milkshake correlates with ad libitum milkshake intake in the absence of hungerExercise-related changes in between-network connectivity in overweight/obese adultsDifferences in the neuronal response to food in obesity-resistant as compared to obesity-prone individuals.Neural vulnerability factors that increase risk for future weight gain.Relationship between appetitive motives and non-exercise lifestyle in a young adult populationLow energy intake plus low energy expenditure (low energy flux), not energy surfeit, predicts future body fat gain.Immediate neural responses of appetitive motives and its relationship with hedonic appetite and body weight as revealed by magnetoencephalographyImpact of imposed exercise on energy intake in children at risk for overweight.Physical exercise habits correlate with gray matter volume of the hippocampus in healthy adult humansEffects of exercise on resting-state default mode and salience network activity in overweight/obese adultsFasting Leptin Is a Metabolic Determinant of Food Reward in Overweight and Obese Individuals during Chronic Aerobic Exercise Training.Consuming Almonds vs. Isoenergetic Baked Food Does Not Differentially Influence Postprandial Appetite or Neural Reward Responses to Visual Food Stimuli.Ovarian hormones and obesity.Exercise and caloric restriction alter the immune system of mice submitted to a high-fat diet.Effects of a 12-week aerobic exercise intervention on eating behaviour, food cravings, and 7-day energy intake and energy expenditure in inactive men.Reproducibility assessment of brain responses to visual food stimuli in adults with overweight and obesity.Differences in neural activation to depictions of physical exercise and sedentary activity: an fMRI study of overweight and lean Chinese women.Longitudinal functional connectivity changes correlate with mood improvement after regular exercise in a dose-dependent fashion.Effects of Physical Activity and Sedentary Behavior on Brain Response to High-Calorie Food Cues in Young Adults.Brain reactivity to visual food stimuli after moderate-intensity exercise in children.Obesity, Appetite, and the Prefrontal Cortex.Reduced neural responses to food cues might contribute to the anorexigenic effect of acute exercise observed in obese but not lean adolescents.Influences of Dietary Added Sugar Consumption on Striatal Food-Cue Reactivity and Postprandial GLP-1 Response.Reduced neural response to food cues following exercise is accompanied by decreased energy intake in obese adolescents.Behavioral interventions in health neuroscience
P2860
Q28070199-A645BA18-8B97-4D47-961B-5D3386CE4047Q30618009-43740854-BA5A-49E7-8B5C-3980DF05DA04Q30809802-67A1F12F-954C-475B-A43D-E0D30FEA0493Q34343720-E88E4811-3F98-4A41-8A7C-D4D8DA588B7DQ34561733-351FFF5D-CA25-4644-A537-E4859D02062EQ34578047-44891C0A-C68A-4C54-B56D-01A0B16E359CQ34650757-4FD80981-F303-4F46-8ED6-1E94AD6C5E8DQ36477132-CFA47641-27B7-4986-8223-24DCC3D6FCD8Q36717111-535835E4-78CD-4D2D-81F8-0A123DB5A1F4Q36736249-C6B98F26-EB85-48D3-BAF0-6E6BB63E7B12Q36777473-65186B78-9779-4913-A37E-13520AB08962Q36858976-1DDAF0A0-BDFC-410F-80C5-A3F5295AC95BQ36937634-2ECD52D0-54A5-4622-937D-14C0B87E1F9AQ37079446-A5B47275-0FBB-4E97-A9AB-937C4CFFCEECQ37356824-5DB8FD23-6604-4D1C-B728-2F7455D308A5Q37385454-DF3C36E3-75FF-451B-97B1-586E859067E7Q37609100-49C589D7-65F4-46FD-9C78-FF10368C91F0Q37664392-6427BB95-3E42-4482-98BF-47D9F83DD6B4Q38657895-7EC11701-B86A-4920-A934-6B18DEFBCA13Q38883831-DB75E68D-9EE6-4C6C-AFFC-819F6575FB91Q39376116-43DF0007-ED7D-4BF0-BFEF-ED12EBFDD779Q40525227-46FA321C-8157-4B9E-AF05-DCC32A6202C5Q41655296-7B6EE5EC-F52E-4A9C-96B0-8F2F97C5555CQ43697064-57A27B95-0C20-4949-9732-137197094152Q47577019-A143CD25-7AC6-407A-A497-8F95446B279FQ47850722-64488F01-86B9-443C-9C9A-5A1637A58372Q47939574-A3F632C8-0E2B-4121-95EE-6A03E5CEFB90Q48000356-47985579-309B-47BB-896D-0A0DE6832F06Q48149167-FB282377-DF2A-49BF-B838-224162E65049Q49673713-BEB52074-C96C-49C8-9CB1-F9904FA88723Q50556526-523EB179-5452-4966-B9C8-5D1E8FD181ACQ57162395-84224139-1770-4690-9B45-621FF529100A
P2860
The effects of exercise on the neuronal response to food cues.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
The effects of exercise on the neuronal response to food cues.
@ast
The effects of exercise on the neuronal response to food cues.
@en
type
label
The effects of exercise on the neuronal response to food cues.
@ast
The effects of exercise on the neuronal response to food cues.
@en
prefLabel
The effects of exercise on the neuronal response to food cues.
@ast
The effects of exercise on the neuronal response to food cues.
@en
P2093
P2860
P1476
The effects of exercise on the neuronal response to food cues.
@en
P2093
Andrea K Salzberg
Edward L Melanson
Jamie L Bechtell
Jason R Tregellas
Marc-Andre Cornier
P2860
P304
P356
10.1016/J.PHYSBEH.2011.11.023
P407
P577
2011-12-03T00:00:00Z