scholarly article | Q13442814 |
P356 | DOI | 10.1017/S0029665110004751 |
P698 | PubMed publication ID | 21226975 |
P50 | author | Mark Hopkins | Q43940276 |
Phillipa Caudwell | Q57626774 | ||
John Edward Blundell | Q59903179 | ||
Graham Finlayson | Q53480104 | ||
Catherine Gibbons | Q63413113 | ||
Neil King | Q63436609 | ||
P2093 | author name string | Erik Naslund | |
P2860 | cites work | Affective neuroscience of pleasure: reward in humans and animals | Q24627696 |
Gut hormones and the regulation of energy homeostasis | Q28278826 | ||
The role of high-fat diets and physical activity in the regulation of body weight. | Q34096603 | ||
Low fat loss response after medium-term supervised exercise in obese is associated with exercise-induced increase in food reward | Q34155735 | ||
The assessment of binge eating severity among obese persons. | Q34278233 | ||
Waist circumference and not body mass index explains obesity-related health risk | Q34301193 | ||
Hedonic hunger: a new dimension of appetite? | Q34631942 | ||
The role of implicit wanting in relation to explicit liking and wanting for food: implications for appetite control | Q34656344 | ||
Disinhibition: its effects on appetite and weight regulation | Q34733778 | ||
The Power of Food Scale. A new measure of the psychological influence of the food environment | Q34985219 | ||
A review of psychosocial pre-treatment predictors of weight control | Q36011934 | ||
Dietary energy density in the treatment of obesity: a year-long trial comparing 2 weight-loss diets | Q36059483 | ||
The challenges for molecular nutrition research 1: linking genotype to healthy nutrition | Q36772383 | ||
Metabolic and behavioral compensatory responses to exercise interventions: barriers to weight loss | Q36844462 | ||
Liking vs. wanting food: importance for human appetite control and weight regulation | Q36845446 | ||
Overconsumption and obesity: peptides and susceptibility to weight gain | Q37183736 | ||
Genes, exercise, growth, and the sedentary, obese child | Q37183906 | ||
Appetite responds to changes in meal content, whereas ghrelin, leptin, and insulin track changes in energy availability | Q37257587 | ||
Is weight loss the optimal target for obesity-related cardiovascular disease risk reduction? | Q37267260 | ||
Factors that may impede the weight loss response to exercise-based interventions | Q37524354 | ||
Pharmacological approaches to appetite suppression | Q37773156 | ||
Physical activity energy expenditure has not declined since the 1980s and matches energy expenditures of wild mammals | Q40087774 | ||
Reward sensitivity and the D2 dopamine receptor gene: A case-control study of binge eating disorder | Q40125489 | ||
Homeostasis: beyond Curt Richter | Q41494601 | ||
Fat as a risk factor for overconsumption: satiation, satiety, and patterns of eating | Q41525409 | ||
Interaction between disinhibition and restraint: Implications for body weight and eating disturbance | Q43008450 | ||
Acute stent thrombosis in a patient with giant cell arteritis | Q43179422 | ||
Making claims: functional foods for managing appetite and weight | Q43769752 | ||
Beneficial effects of exercise: shifting the focus from body weight to other markers of health | Q44213599 | ||
Food craving, dietary restraint and mood | Q44794018 | ||
Dual-process action of exercise on appetite control: increase in orexigenic drive but improvement in meal-induced satiety | Q46084472 | ||
Effect of pramlintide on satiety and food intake in obese subjects and subjects with type 2 diabetes | Q46448409 | ||
Mediators of weight loss and weight loss maintenance in middle-aged women | Q47174937 | ||
Exercise alone is not enough: weight loss also needs a healthy (Mediterranean) diet? | Q47175097 | ||
Estimating historical changes in physical activity levels. | Q53674180 | ||
On the social psychology of the psychological experiment: With particular reference to demand characteristics and their implications | Q55953862 | ||
What Do Laboratory Experiments Measuring Social Preferences Reveal About the Real World? | Q56084039 | ||
Twenty-Four-Hour Leptin Levels Respond to Cumulative Short-Term Energy Imbalance and Predict Subsequent Intake | Q56169409 | ||
Does Waist Circumference Predict Diabetes and Cardiovascular Disease Beyond Commonly Evaluated Cardiometabolic Risk Factors? | Q57717523 | ||
Eating behavior correlates of adult weight gain and obesity in healthy women aged 55-65 y. | Q47192201 | ||
Individual variability following 12 weeks of supervised exercise: identification and characterization of compensation for exercise-induced weight loss | Q47270820 | ||
Dietary energy density is associated with energy intake and weight status in US adults | Q47334453 | ||
Relation between caloric intake, body weight, and physical work: studies in an industrial male population in West Bengal | Q47439726 | ||
Exercise, food intake and body weight in normal rats and genetically obese adult mice | Q47443016 | ||
Regulation of energy balance during long-term physical inactivity induced by bed rest with and without exercise training. | Q48235941 | ||
The effect of an incremental increase in exercise on appetite, eating behaviour and energy balance in lean men and women feeding ad libitum | Q48351344 | ||
Effects of exercise on gut peptides, energy intake and appetite | Q48403085 | ||
Behavioural structure and mechanisms of anorexia: calibration of natural and abnormal inhibition of eating | Q48450620 | ||
The evaluation of an electronic visual analogue scale system for appetite and mood. | Q48462026 | ||
Rate and extent of compensatory changes in energy intake and expenditure in response to altered exercise and diet composition in humans | Q48564863 | ||
A decrease in physical activity affects appetite, energy, and nutrient balance in lean men feeding ad libitum | Q48566561 | ||
Dissociation of the effects of preload volume and energy content on subjective appetite and food intake | Q48625153 | ||
The ability of habitual exercise to influence appetite and food intake in response to high- and low-energy preloads in man. | Q48635614 | ||
Comparison of the traditional paper visual analogue scale questionnaire with an Apple Newton electronic appetite rating system (EARS) in free living subjects feeding ad libitum | Q48710879 | ||
A satiety quotient: a formulation to assess the satiating effect of food | Q48729926 | ||
High dose exercise does not increase hunger or energy intake in free living males | Q48744875 | ||
The three-factor eating questionnaire to measure dietary restraint, disinhibition and hunger | Q48984819 | ||
Mood-induced eating. Interactive effects of restraint and tendency to overeat. | Q50768450 | ||
What foods do people habitually eat? A dilemma for nutrition, an enigma for psychology. | Q51083801 | ||
The response to exercise with constant energy intake in identical twins. | Q51593750 | ||
Acute compensatory eating following exercise is associated with implicit hedonic wanting for food. | Q51640305 | ||
The effect of graded levels of exercise on energy intake and balance in free-living men, consuming their normal diet. | Q51726667 | ||
Increased food energy supply is more than sufficient to explain the US epidemic of obesity. | Q51784918 | ||
Lean-body-mass composition and resting energy expenditure before and after long-term overfeeding | Q67566768 | ||
Daily energy expenditure in free-living children: comparison of heart-rate monitoring with the doubly labeled water (2H218O) method | Q68219642 | ||
The energy expenditure and food intake of individual men | Q73789245 | ||
The effect of graded levels of exercise on energy intake and balance in free-living women | Q74202236 | ||
Loss of appetite for alcohol and alcoholic beverages produced in rats by treatment with thyroid preparations | Q74296139 | ||
Plasma ghrelin concentration and energy balance: overfeeding and negative energy balance studies in twins | Q74494238 | ||
Uncoupling the effects of energy expenditure and energy intake: appetite response to short-term energy deficit induced by meal omission and physical activity | Q77145071 | ||
The NPY/AgRP neuron and energy homeostasis | Q77628422 | ||
Opinion-attitude methodology | Q82148434 | ||
P433 | issue | 2 | |
P921 | main subject | appetite | Q28578 |
P304 | page(s) | 171-180 | |
P577 | publication date | 2011-05-01 | |
P1433 | published in | Proceedings of the Nutrition Society | Q15817594 |
P1476 | title | The influence of physical activity on appetite control: an experimental system to understand the relationship between exercise-induced energy expenditure and energy intake. | |
P478 | volume | 70 |
Q35224106 | 6-n-propylthiouracil taster status not related to reported cruciferous vegetable intake among ethnically diverse children |
Q38560902 | A Review of Factors Influencing Athletes' Food Choices. |
Q36408333 | A brief review of salient factors influencing adult eating behaviour |
Q38329503 | Appetite control and energy balance: impact of exercise |
Q47367752 | Body composition and appetite: fat-free mass (but not fat mass or BMI) is positively associated with self-determined meal size and daily energy intake in humans |
Q44418043 | Breakfast and exercise contingently affect postprandial metabolism and energy balance in physically active males |
Q38113272 | Energy balance and obesity: a UK perspective on the gluttony v. sloth debate |
Q35916517 | Higher Daily Energy Expenditure and Respiratory Quotient, Rather Than Fat-Free Mass, Independently Determine Greater ad Libitum Overeating |
Q37628089 | Impact of physical activity level and dietary fat content on passive overconsumption of energy in non-obese adults |
Q48182685 | Influence of Muscle Mass and Outdoor Environmental Factors on Appetite and Satiety Feeling in Young Japanese Women |
Q35662308 | Npvf: Hypothalamic Biomarker of Ambient Temperature Independent of Nutritional Status |
Q52307851 | Obesity and Smoking: can we Kill Two Birds with one Tax? |
Q43805537 | Plasma levels of interleukin-6 and interleukin-18 after an acute physical exercise: relation with post-exercise energy intake in twins. |
Q47191621 | Role of Physical Activity for Weight Loss and Weight Maintenance |
Q26866503 | Role of resting metabolic rate and energy expenditure in hunger and appetite control: a new formulation |
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