| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1037/0033-295X.98.4.488 |
| P698 | PubMed publication ID | 1961770 |
| P2093 | author name string | Woods SC | |
| P433 | issue | 4 | |
| P304 | page(s) | 488-505 | |
| P577 | publication date | 1991-10-01 | |
| P1433 | published in | Psychological Review | Q7256370 |
| P1476 | title | The eating paradox: how we tolerate food | |
| P478 | volume | 98 |
| Q36408333 | A brief review of salient factors influencing adult eating behaviour |
| Q52186493 | A learning model of binge eating: cue reactivity and cue exposure. |
| Q52167304 | Adiposity signals and brain reward mechanisms. |
| Q43245109 | Adult consequences of post-weaning high fat feeding on the limbic-HPA axis of female rats. |
| Q28755188 | Alimentary Epigenetics: A Developmental Psychobiological Systems View of the Perception of Hunger, Thirst and Satiety |
| Q28681479 | An evolutionary perspective on food and human taste |
| Q24654018 | Anticipatory physiological regulation in feeding biology: cephalic phase responses |
| Q26750580 | Appetite and energy balancing |
| Q41513673 | Aspects of the relationship between drug dose and drug effect |
| Q24642765 | Avoidance of hydrolyzed casein by mice |
| Q39674955 | Beyond expectations: the physiological basis of sensory enhancement of satiety. |
| Q38781213 | Bidirectional Anticipation of Future Osmotic Challenges by Vasopressin Neurons. |
| Q35035918 | Blood glucose dynamics and control of meal initiation: a pattern detection and recognition theory |
| Q36538372 | Breakfast Protein Source Does Not Influence Postprandial Appetite Response and Food Intake in Normal Weight and Overweight Young Women |
| Q36979763 | Central control of body weight and appetite |
| Q33711005 | Cephalic phase pancreatic polypeptide responses to liquid and solid stimuli in humans |
| Q37801670 | Cephalic phase responses and appetite |
| Q52191498 | Changes in respiratory quotient elicited in rats by a conditioned stimulus predicting food. |
| Q34200223 | Clarifying the roles of homeostasis and allostasis in physiological regulation |
| Q33901200 | Classically conditioned responses following repeated insulin and glucose administration in humans |
| Q34303597 | Cognitive effects of insulin in the central nervous system |
| Q52195571 | Conditioned insulin and blood sugar responses in humans in relation to binge eating. |
| Q26779285 | Control of Body Weight by Eating Behavior in Children |
| Q34376205 | D3 dopamine receptor, behavioral sensitization, and psychosis |
| Q35040267 | Design and implementation of a study evaluating extinction processes to food cues in obese children: the Intervention for Regulations of Cues Trial (iROC). |
| Q36576609 | Dietary synergies in appetite control: distal gastrointestinal tract |
| Q41778147 | Differential activation of chemically identified neurons in the caudal nucleus of the solitary tract in non-entrained rats after intake of satiating vs. non-satiating meals |
| Q48628474 | Direct evidence for systems-level modulation of initial drug (in)sensitivity in rats |
| Q64890241 | Eating Behavior and the Evolutionary Perspective on Anorexia Nervosa. |
| Q36141308 | Eating motives and the controversy over dieting: eating less than needed versus less than wanted |
| Q37221939 | Effects of cues associated with meal interruption on feeding behavior |
| Q38458798 | Effects of oral and gastric stimulation on appetite and energy intake |
| Q43604682 | Effects of prenatal ethanol exposure and postnatal handling on conditioned taste aversion. |
| Q21133808 | Episodic memory and appetite regulation in humans |
| Q55442777 | Exacting Responses: Lack of Endocrine Cephalic Phase Responses Upon Oro-Sensory Exposure. |
| Q33634379 | Expecting to eat: glucagon-like peptide-1 and the anticipation of meals. |
| Q42207255 | Experience with the high-intensity sweetener saccharin impairs glucose homeostasis and GLP-1 release in rats. |
| Q52191821 | Flavor preferences conditioned by intragastric polycose in rats: more concentrated polycose is not always more reinforcing. |
| Q47870177 | Food Addiction and Binge Eating: Lessons Learned from Animal Models |
| Q64949783 | Food Perception Primes Hepatic ER Homeostasis via Melanocortin-Dependent Control of mTOR Activation. |
| Q33904272 | Food craving and food "addiction": a critical review of the evidence from a biopsychosocial perspective |
| Q37870399 | Food intake, metabolism and homeostasis |
| Q35080439 | Food reinforcement, energy intake, and macronutrient choice |
| Q37375325 | Food-entrained rhythmic expression of apolipoprotein E expression in the hypothalamus of rats |
| Q37802018 | Forebrain circuits and control of feeding by learned cues |
| Q35251043 | Gastrointestinal regulation of food intake |
| Q35580855 | Gender Differences in the Control of Energy Homeostasis |
| Q35732746 | Ghrelin regulates phasic dopamine and nucleus accumbens signaling evoked by food-predictive stimuli |
| Q38806768 | Ghrelin: A link between memory and ingestive behavior |
| Q35892355 | High endogenous salivary amylase activity is associated with improved glycemic homeostasis following starch ingestion in adults |
| Q36976553 | Hindbrain glucagon-like peptide-1 neurons track intake volume and contribute to injection stress-induced hypophagia in meal-entrained rats |
| Q41494601 | Homeostasis: beyond Curt Richter |
| Q35115954 | Homeostastic and non-homeostatic functions of melanocortin-3 receptors in the control of energy balance and metabolism |
| Q34729621 | Homeostatic reinforcement learning for integrating reward collection and physiological stability. |
| Q53425804 | How and why do gastrointestinal peptides influence food intake? |
| Q37831550 | How neural mediation of anticipatory and compensatory insulin release helps us tolerate food |
| Q36508186 | Hunger and satiety: one brain for two? |
| Q27027737 | Inconsistencies in the assessment of food intake |
| Q37180947 | Interactions between the central nervous system and pancreatic islet secretions: a historical perspective |
| Q24619063 | Intranasal insulin enhances postprandial thermogenesis and lowers postprandial serum insulin levels in healthy men |
| Q48827534 | Introduction and commentary to: M.I. Mityushov (1954) "Conditioned reflex secretion of insulin". |
| Q47404236 | Large Portions Encourage the Selection of Palatable Rather Than Filling Foods |
| Q55431115 | Learned Overeating: Applying Principles of Pavlovian Conditioning to Explain and Treat Overeating. |
| Q34079599 | Learned and cognitive controls of food intake |
| Q36245083 | Learned food-cue stimulates persistent feeding in sated rats |
| Q36245127 | Learning and the motivation to eat: forebrain circuitry |
| Q33621147 | Leptin and the systems neuroscience of meal size control |
| Q38742674 | Making sense of the sensory regulation of hunger neurons |
| Q34439517 | Meal feeding improves oral glucose tolerance in male rats and causes adaptations in postprandial islet hormone secretion that are independent of plasma incretins or glycemia |
| Q51475471 | Meal pattern of male rats maintained on histidine-, leucine-, or tyrosine-supplemented diet. |
| Q33634407 | Meal-anticipatory glucagon-like peptide-1 secretion in rats. |
| Q30842018 | Melanocortin-3 receptors expressed in Nkx2.1(+ve) neurons are sufficient for controlling appetitive responses to hypocaloric conditioning |
| Q46630360 | Metabolism: food alert |
| Q29616362 | Neural regulation of endocrine and autonomic stress responses |
| Q48470532 | Neuropeptide Y paradoxically increases food intake yet causes conditioned flavor aversions |
| Q45253682 | Neuropeptide Y prepares rats for scheduled feeding |
| Q34669247 | Nitrous oxide causes a regulated hypothermia: rats select a cooler ambient temperature while becoming hypothermic |
| Q90408012 | Nutrition and taste and smell dysfunction |
| Q46195500 | Nutritional influences on cognitive function: mechanisms of susceptibility |
| Q50130740 | Obesity Pathogenesis: An Endocrine Society Scientific Statement |
| Q44032090 | Odors: appetizing or satiating? Development of appetite during odor exposure over time |
| Q34138723 | Opioid modulation of taste hedonics within the ventral striatum. |
| Q33747016 | Oral Fat Exposure Pattern and Lipid Loading Effects on the Serum Triacylglycerol Concentration of Humans |
| Q36576600 | Orosensory considerations |
| Q34895136 | Oscillators entrained by food and the emergence of anticipatory timing behaviors |
| Q36351868 | Overview of animal models of obesity. |
| Q52092589 | Overweight children overeat after exposure to food cues. |
| Q35140241 | Pancreatic signals controlling food intake; insulin, glucagon and amylin |
| Q58054207 | Pavlovian Craving and Overeating: A Conditioned Incentive Model |
| Q33913298 | Pavlovian influences over food and drug intake |
| Q46688456 | Perceived thickness and creaminess modulates the short-term satiating effects of high-protein drinks |
| Q47701286 | Physical activity: benefit or weakness in metabolic adaptations in a mouse model of chronic food restriction? |
| Q50488234 | Physiological Regulation: How It Really Works. |
| Q46039167 | Polysymptomatic syndromes and autonomic reactivity to nonfood stressors in individuals with self-reported adverse food reactions. |
| Q34333886 | Reduced anorexigenic efficacy of leptin, but not of the melanocortin receptor agonist melanotan-II, predicts diet-induced obesity in rats |
| Q60907374 | Regulation of substrate utilization and adiposity by Agrp neurons |
| Q35603369 | SIRT1 in the Ventromedial Hypothalamus: A Nutrient Sensor Input Into the Internal Timekeeper |
| Q38957778 | Salivary Amylase: Digestion and Metabolic Syndrome. |
| Q42737933 | Satiation and stress-induced hypophagia: examining the role of hindbrain neurons expressing prolactin-releasing Peptide or glucagon-like Peptide 1. |
| Q36946754 | Selective Fos induction in hypothalamic orexin/hypocretin, but not melanin-concentrating hormone neurons, by a learned food-cue that stimulates feeding in sated rats |
| Q41896578 | Signaling through the ghrelin receptor modulates hippocampal function and meal anticipation in mice |
| Q51836723 | Slow food, fast food and the control of food intake. |
| Q35553426 | So Many Brands and Varieties to Choose from: Does This Compromise the Control of Food Intake in Humans? |
| Q36114147 | Sugar-induced cephalic-phase insulin release is mediated by a T1r2+T1r3-independent taste transduction pathway in mice |
| Q47952495 | The cephalic phase insulin response to nutritive and low-calorie sweeteners in solid and beverage form. |
| Q34960476 | The control of food intake: behavioral versus molecular perspectives |
| Q90664918 | The duration of intermittent access to preferred sucrose-rich food affects binge-like intake, fat accumulation, and fasting glucose in male rats |
| Q38123372 | The endocrinology of food intake |
| Q48142057 | The habitual brain: an "adapted habit" theory of substance use disorders |
| Q36948170 | The lipid messenger OEA links dietary fat intake to satiety. |
| Q86677694 | The psychobiology of meals |
| Q28580844 | The regulation of alcohol intake by melanin-concentrating hormone in rats |
| Q47599672 | The role of low-calorie sweeteners in the prevention and management of overweight and obesity: evidence v. conjecture |
| Q52102512 | The specificity of restrained versus unrestrained eaters' responses to food cues: general desire to eat, or craving for the cued food? |
| Q35622131 | The use of animal models to decipher physiological and neurobiological alterations of anorexia nervosa patients |
| Q34448641 | Toward a more complete (and less controversial) understanding of energy expenditure and its role in obesity pathogenesis |
| Q83486679 | Why liquid energy results in overconsumption |
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