| P50 | author | Stephen C. Woods | Q110849828 |
| P2093 | author name string | Douglas S Ramsay | |
| P2860 | cites work | Motivation concepts in behavioral neuroscience | Q22337319 |
| | The systems biology markup language (SBML): a medium for representation and exchange of biochemical network models | Q28212902 |
| | How do you feel? Interoception: the sense of the physiological condition of the body | Q28216765 |
| | Drug addiction, dysregulation of reward, and allostasis | Q29616741 |
| | A teleological view of obesity, diabetes and hypertension. | Q30356368 |
| | Module-based analysis of robustness tradeoffs in the heat shock response system | Q33251546 |
| | Acute and delayed thermoregulatory response of mice exposed to brevetoxin | Q33337546 |
| | Nutritional implications of cephalic phase gastrointestinal responses | Q33879627 |
| | Nutritional implications of the cephalic-phase reflexes: endocrine responses | Q33879639 |
| | Pavlovian influences over food and drug intake | Q33913298 |
| | Curt Richter and regulatory physiology | Q33999884 |
| | Physiology of the circadian timing system: predictive versus reactive homeostasis | Q34188128 |
| | The role of depot fat in the hypothalamic control of food intake in the rat. | Q34231666 |
| | The economics of the law of effect | Q34305466 |
| | Reverse engineering of biological complexity | Q34548755 |
| | Regulation of Food Intake and Obesity | Q34700521 |
| | The temporal organization of ingestive behaviour and its interaction with regulation of energy balance | Q34804446 |
| | Blood glucose dynamics and control of meal initiation: a pattern detection and recognition theory | Q35035918 |
| | Allostasis: a neural behavioral perspective | Q35076811 |
| | The timing of meals | Q35645936 |
| | Do fever and anapyrexia exist? Analysis of set point-based definitions | Q35801989 |
| | Homeostasis: a plea for a unified approach | Q35951191 |
| | A theoretical consideration of the means whereby the mammalian core temperature is defended at a null zone | Q36422664 |
| | Adjustable set point: to honor Harold T. Hammel | Q36422668 |
| | The eating paradox: how we tolerate food | Q37555883 |
| | Mind over metabolism: the cephalic phase in relation to non-insulin-dependent diabetes and obesity | Q38694335 |
| | The role of glucose, insulin and glucagon in the regulation of food intake and body weight | Q39591536 |
| | Feeding and metabolic patterns in rats with truncular vagotomy or with transplanted beta-cells | Q39616817 |
| | The ventromedial hypothalamic syndrome, satiety, and a cephalic phase hypothesis | Q39619781 |
| | Neural Organization and Evolution of Thermal Regulation in Mammals | Q39732646 |
| | A review of terms for regulated vs. forced, neurochemical-induced changes in body temperature | Q40146640 |
| | Cephalic phase, reflex insulin secretion. Neuroanatomical and physiological characterization. | Q40305590 |
| | Metabolic and glucostatic control of feeding | Q41132051 |
| | Biological consequences of drug administration: implications for acute and chronic tolerance | Q41331288 |
| | Tolerance to hypothermia induced by ethanol depends on specific drug effects | Q41380722 |
| | Regulation and modulation in biology. A reexamination of temperature regulation | Q41456929 |
| | Anesthetics and body temperature regulation. | Q43873301 |
| | Is the energy homeostasis system inherently biased toward weight gain? | Q47173540 |
| | The relation between meal size and the time between meals: effects of cage complexity and food cost | Q47256852 |
| | Injections of insulin and changes of body weight | Q47331590 |
| | Metabolic hormones and regulation of body weight. | Q47362014 |
| | Regulation of energy intake and the body weight: the glucostatic theory and the lipostatic hypothesis | Q47440924 |
| | The house economist and the eating paradox | Q48598008 |
| | Increased feeding in response to decreased glucose utilization in the rat and monkey | Q48983591 |
| | Sleep and activity: their relation to the 24-hour clock. | Q51219982 |
| | Effects of a fixed meal pattern on ghrelin secretion: evidence for a learned response independent of nutrient status. | Q51510360 |
| | Conditioning and extinction of tolerance to the hypothermic effect of ethanol in rats. | Q52297032 |
| | Conditioned Tolerance to the Hypothermic Effect of Ethyl Alcohol | Q52301014 |
| | Acquisition of sodium by rats: Interaction of innate mechanisms and latent learning | Q52339913 |
| | Role of the oropharynx in regulation of glycemia | Q68957550 |
| | Control of food intake by fatty acid oxidation | Q69535838 |
| | Response specificity of behaviorally augmented tolerance to ethanol supports a learning interpretation | Q70432246 |
| | Temperature regulation in the neutral zone | Q73217557 |
| | Obesity and the environment: where do we go from here? | Q78947050 |
| | Global manpower needs for integrative systems physiologists | Q81548897 |
| | The psychobiology of meals | Q86677694 |
| P433 | issue | 2 | |
| P304 | page(s) | 388-398 | |
| P577 | publication date | 2007-04-05 | |
| P1433 | published in | Appetite | Q13430275 |
| P1476 | title | Homeostasis: beyond Curt Richter | |
| P478 | volume | 49 | |