| scholarly article | Q13442814 |
| P50 | author | Paolo Piaggi | Q39983806 |
| Douglas C Chang | Q88286342 | ||
| P2093 | author name string | Jonathan Krakoff | |
| Susanne B Votruba | |||
| Alessio Basolo | |||
| P2860 | cites work | A review of the nonpressor and nonantidiuretic actions of the hormone vasopressin | Q21131156 |
| Negative, Null and Beneficial Effects of Drinking Water on Energy Intake, Energy Expenditure, Fat Oxidation and Weight Change in Randomized Trials: A Qualitative Review | Q26771241 | ||
| Vasopressin V1a and V1b receptors: from molecules to physiological systems | Q26823378 | ||
| Water-Induced Thermogenesis | Q28315417 | ||
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| The Circadian Rhythm of Copeptin, the C-Terminal Portion of Arginine Vasopressin. | Q33800762 | ||
| Influence of water drinking on resting energy expenditure in overweight children | Q34199942 | ||
| Aestivation: signaling and hypometabolism | Q34267613 | ||
| Determinants of 24-hour energy expenditure in man. Methods and results using a respiratory chamber | Q34550661 | ||
| Copeptin, a Surrogate Marker of Vasopressin, Is Associated with Disease Severity in Autosomal Dominant Polycystic Kidney Disease | Q34639667 | ||
| Follow-up report on the diagnosis of diabetes mellitus | Q35567871 | ||
| Higher Daily Energy Expenditure and Respiratory Quotient, Rather Than Fat-Free Mass, Independently Determine Greater ad Libitum Overeating | Q35916517 | ||
| The 24-h carbohydrate oxidation rate in a human respiratory chamber predicts ad libitum food intake | Q36247818 | ||
| The influence of oral water load on energy expenditure and sympatho-vagal balance in obese and normal weight women | Q36524829 | ||
| Lower energy expenditure predicts long-term increases in weight and fat mass | Q36736503 | ||
| Hydration biomarkers in free-living adults with different levels of habitual fluid consumption. | Q36800973 | ||
| Morning ghrelin concentrations are not affected by short-term overfeeding and do not predict ad libitum food intake in humans | Q37155211 | ||
| Relation between urinary hydration biomarkers and total fluid intake in healthy adults | Q37187194 | ||
| Body composition and energy expenditure predict ad-libitum food and macronutrient intake in humans | Q37538481 | ||
| The functional architecture of dehydration-anorexia. | Q37732872 | ||
| The regulation of AMPK signaling in a natural state of profound metabolic rate depression | Q39381702 | ||
| Assessment of energy expenditure and fuel utilization in man. | Q39661648 | ||
| Copeptin, a surrogate marker of vasopressin, is associated with microalbuminuria in a large population cohort | Q39936653 | ||
| Distinct patterns of neuropeptide gene expression in the lateral hypothalamic area and arcuate nucleus are associated with dehydration-induced anorexia. | Q41679334 | ||
| High salt intake reprioritizes osmolyte and energy metabolism for body fluid conservation | Q42290205 | ||
| Mechanism for the 'anti-lipolytic' action of vasopressin in the starved rat. | Q42867690 | ||
| Low ratio of fat to carbohydrate oxidation as predictor of weight gain: study of 24-h RQ. | Q43431480 | ||
| Copeptin, a marker of vasopressin, in abdominal obesity, diabetes and microalbuminuria: the prospective Malmö Diet and Cancer Study cardiovascular cohort | Q43684302 | ||
| Insulin resistance and insulin secretory dysfunction as precursors of non-insulin-dependent diabetes mellitus. Prospective studies of Pima Indians | Q43850960 | ||
| Hydration biomarkers and dietary fluid consumption of women | Q44084242 | ||
| Lowering the criterion for impaired fasting glucose is in order | Q44666297 | ||
| Assay for the measurement of copeptin, a stable peptide derived from the precursor of vasopressin | Q46790418 | ||
| Activation of endogenous arginine vasopressin neurons inhibit food intake: by using a novel transgenic rat line with DREADDs system | Q47133477 | ||
| Reduced rate of energy expenditure as a risk factor for body-weight gain | Q47183838 | ||
| Effects of hydration on plasma copeptin, glycemia and gluco-regulatory hormones: a water intervention in humans | Q47676004 | ||
| A Novel Approach to Predict 24-Hour Energy Expenditure Based on Hematologic Volumes: Development and Validation of Models Comparable to Mifflin-St Jeor and Body Composition Models. | Q47820946 | ||
| Interdependency of food and water intake in humans | Q48945375 | ||
| A microregulatory analysis of spontaneous fluid intake by humans: evidence that the amount of liquid ingested and its timing is mainly governed by feeding | Q48950868 | ||
| Body fluid changes, thirst and drinking in man during free access to water | Q48987904 | ||
| Water drinking induces thermogenesis through osmosensitive mechanisms. | Q52925923 | ||
| Metabolic effects of water deprivation. | Q52943688 | ||
| The interaction of hunger and thirst in the rat. | Q53016320 | ||
| The effect of water deprivation and subsequent satiation upon general activity in the rat. | Q53019752 | ||
| Differences in dietary-induced thermogenesis with various carbohydrates in normal and overweight men. | Q55062794 | ||
| Short-term energy balance: relationship with protein, carbohydrate, and fat balances | Q68516882 | ||
| Vasopressin reduces food intake in goats | Q69762174 | ||
| Energy cost of physical activity on a metabolic ward in relationship to obesity | Q70160330 | ||
| Use of dual-energy X-ray absorptiometry in obese individuals | Q71774521 | ||
| The Vasopressin System in the Risk of Diabetes and Cardiorenal Disease, and Hydration as a Potential Lifestyle Intervention | Q89168090 | ||
| P433 | issue | 1 | |
| P921 | main subject | biomarker | Q864574 |
| P304 | page(s) | 158-166 | |
| P577 | publication date | 2019-06-03 | |
| P1433 | published in | European Journal of Clinical Nutrition | Q15756702 |
| P1476 | title | Hydration biomarkers and copeptin: relationship with ad libitum energy intake, energy expenditure, and metabolic fuel selection | |
| P478 | volume | 74 |
| Q90547265 | Sodium Handling and Interaction in Numerous Organs | cites work | P2860 |
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