8 results on '"Danforth E Jr"'
Search Results
2. Dose-response issues concerning physical activity and health: an evidence-based symposium.
- Author
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Kesaniemi YK, Danforth E Jr, Jensen MD, Kopelman PG, Lefèbvre P, and Reeder BA
- Subjects
- Adult, Age Factors, Aged, Anxiety Disorders prevention & control, Chronic Disease, Depression prevention & control, Diabetes Mellitus, Type 2 prevention & control, Female, Humans, Hyperlipidemias prevention & control, Male, Middle Aged, Neoplasms, Obesity prevention & control, Public Health, Quality of Life, Risk Factors, Sex Factors, Time Factors, Cardiovascular Diseases prevention & control, Evidence-Based Medicine, Exercise, Health Status, Physical Fitness
- Published
- 2001
- Full Text
- View/download PDF
3. Beyond sloth--physical activity and weight gain.
- Author
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Ravussin E and Danforth E Jr
- Subjects
- Adipose Tissue, Animals, Basal Metabolism, Body Composition, Eating, Exercise, Humans, Sympathetic Nervous System physiology, Energy Intake, Energy Metabolism, Hyperphagia physiopathology, Movement, Weight Gain
- Published
- 1999
- Full Text
- View/download PDF
4. Expenditure and storage of energy in man.
- Author
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Sims EA and Danforth E Jr
- Subjects
- Animals, Basal Metabolism, Body Temperature Regulation, Dietary Carbohydrates administration & dosage, Dietary Fats administration & dosage, Humans, Hyperphagia physiopathology, Obesity physiopathology, Physical Exertion, Energy Metabolism
- Published
- 1987
- Full Text
- View/download PDF
5. Dietary-induced alterations in thyroid hormone metabolism during overnutrition.
- Author
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Danforth E Jr, Horton ES, O'Connell M, Sims EA, Burger AG, Ingbar SH, Braverman L, and Vagenakis AG
- Subjects
- Adult, Body Weight, Dietary Carbohydrates administration & dosage, Dietary Fats metabolism, Dietary Proteins administration & dosage, Humans, Kinetics, Metabolic Clearance Rate, Time Factors, Diet, Energy Intake, Thyroxine metabolism, Triiodothyronine metabolism, Triiodothyronine, Reverse metabolism
- Abstract
Diet-induced alterations in thyroid hormone concentrations have been found in studies of long-term (7 mo) overfeeding in man (the Vermont Study). In these studies of weight gain in normal weight volunteers, increased calories were required to maintain weight after gain over and above that predicted from their increased size. This was associated with increased concentrations of triiodothyronine (T3). No change in the caloric requirement to maintain weight or concentrations of T3 was found after long-term (3 mo) fat overfeeding. In studies of short-term overfeeding (3 wk) the serum concentrations of T3 and its metabolic clearance were increased, resulting in a marked increase in the production rate of T3 irrespective of the composition of the diet overfed (carbohydrate 29.6 +/- 2.1 to 54.0 +/- 3.3, fat 28.2 +/- 3.7 to 49.1 +/- 3.4, and protein 31.2 +/- 2.1 to 53.2 +/- 3.7 microgram/d per 70 kg). Thyroxine production was unaltered by overfeeding (93.7 +/- 6.5 vs. 89.2 +/- 4.9 microgram/d per 70 kg). It is still speculative whether these dietary-induced alterations in thyroid hormone metabolism are responsible for the simultaneously increased expenditure of energy in these subjects and therefore might represent an important physiological adaptation in times of caloric affluence. During the weight-maintenance phases of the long-term overfeeding studies, concentrations of T3 were increased when carbohydrate was isocalorically substituted for fat in the diet. In short-term studies the peripheral concentrations of T3 and reverse T3 found during fasting were mimicked in direction, if not in degree, with equal or hypocaloric diets restricted in carbohydrate were fed. It is apparent from these studies that the caloric content as well as the composition of the diet, specifically, the carbohydrate content, can be important factors in regulating the peripheral metabolism of thyroid hormones.
- Published
- 1979
- Full Text
- View/download PDF
6. Thermic effect of infused glucose and insulin in man. Decreased response with increased insulin resistance in obesity and noninsulin-dependent diabetes mellitus.
- Author
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Ravussin E, Bogardus C, Schwartz RS, Robbins DC, Wolfe RR, Horton ES, Danforth E Jr, and Sims EA
- Subjects
- Blood Glucose analysis, Body Weight drug effects, Catecholamines blood, Diabetes Mellitus diet therapy, Diabetes Mellitus physiopathology, Drug Resistance, Energy Metabolism, Female, Glucose metabolism, Humans, Insulin blood, Male, Obesity physiopathology, Pulmonary Gas Exchange drug effects, Body Temperature Regulation drug effects, Diabetes Mellitus metabolism, Glucose administration & dosage, Insulin administration & dosage, Obesity metabolism
- Abstract
The thermic effect of infused glucose and insulin was measured by combining the hyperinsulinemic euglycemic clamp technique with indirect calorimetry, in 10 normal weight volunteers (group I), 7 obese subjects with normal glucose tolerance (group II), and 13 obese subjects with abnormal glucose tolerance or noninsulin-dependent diabetes mellitus before (group IIIa) and after weight loss of 10.8 +/- 0.4 kg (group IIIb). During hyperinsulinemia (760-1,100 pmol/liter), total glucose disposal from combined endogenous production and glucose infusion was 545 +/- 49, 441 +/- 70, 233 +/- 35, 231 +/- 31 mg/min and energy expenditure changed by + 0.476 +/- 0.080, +0.293 +/- 0.095, -0.114 +/- 0.063, and +0.135 +/- 0.082 kJ/min in group I, II, IIIa, and IIIb, respectively. The increased energy expenditure correlated with glucose storage (measured cost of processing the glucose: 1.33 kJ/g). In group IIIa there was no increase in energy expenditure in response to glucose and insulin infusions. After therapy (group IIIb) there was a significant recovery (P less than 0.05) of the thermic effect of infused glucose although total glucose disposal was unchanged. It is proposed that the recovered thermic effect of infused insulin/glucose is due to the different contributions of gluconeogenesis in the fasting state and during the glucose clamp before and after weight loss. In addition we hypothesize that some of the lower thermic effect of food reported in obese noninsulin-dependent diabetics may be explained by decreased energy expenditure due to a greater suppression of hepatic gluconeogenesis as well as by lower storage rate.
- Published
- 1983
- Full Text
- View/download PDF
7. Glucose metabolism and the response to insulin by human adipose tissue in spontaneous and experimental obesity. Effects of dietary composition and adipose cell size.
- Author
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Salans LB, Bray GA, Cushman SW, Danforth E Jr, Glennon JA, Horton ES, and Sims EA
- Subjects
- Adipose Tissue cytology, Basal Metabolism, Body Weight, Carbon Dioxide metabolism, Carbon Radioisotopes, Diet, Dietary Carbohydrates, Dietary Fats, Dietary Proteins, Fatty Acids metabolism, Glycerides metabolism, Humans, Male, Oxidation-Reduction drug effects, Stimulation, Chemical, Adipose Tissue metabolism, Glucose metabolism, Insulin pharmacology, Obesity metabolism
- Abstract
[1-(14)C]glucose oxidation to CO(2) and conversion into glyceride by adipose tissue from nonobese and obese subjects has been studied in vitro in the presence of varying medium glucose and insulin concentrations as functions of adipose cell size, the composition of the diet, and antecedent weight gain or loss. Increasing medium glucose concentrations enhance the incorporation of glucose carbons by human adipose tissue into CO(2) and glyceride-glycerol. Insulin further stimulates the conversion of glucose carbons into CO(2), but not into glyceride-glycerol. Incorporation of [1-(14)C]glucose into glyceride-fatty acids by these tissues could not be demonstrated under any of the conditions tested. Both adipose cell size and dietary composition influence the in vitro metabolism of glucose in, and the response to insulin by, human adipose tissue. During periods of ingestion of weight-maintenance isocaloric diets of similar carbohydrate, fat, and protein composition, increasing adipose cell size is associated with (a) unchanging rates of glucose oxidation and increasing rates of glucose carbon incorporation into glyceride-glycerol in the absence of insulin, but (b) decreasing stimulation of glucose oxidation by insulin. On the other hand, when cell size is kept constant, increasing dietary carbohydrate intake is associated with an increased basal rate of glucose metabolism and response to insulin by both small and large adipose cells. Thus, the rate of glucose oxidation and the magnitude of the insulin response of large adipose cells from individuals ingesting a high carbohydrate diet may be similar to or greater than that in smaller cells from individuals ingesting an isocaloric lower carbohydrate diet.The alterations in basal glucose metabolism and insulin response observed in adipose tissue from patients with spontaneous obesity are reproduced by weight gain induced experimentally in nonobese volunteers; these metabolic changes are reversible with weight loss. The relationships among adipose cell size, dietary composition, and the metabolism of adipose tissue are similar in spontaneous and in experimental obesity.
- Published
- 1974
- Full Text
- View/download PDF
8. Capacity for moderate exercise in obese subjects after adaptation to a hypocaloric, ketogenic diet.
- Author
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Phinney SD, Horton ES, Sims EA, Hanson JS, Danforth E Jr, and LaGrange BM
- Subjects
- Adult, Exercise Test, Fatty Acids, Nonesterified blood, Female, Glucagon blood, Glycogen analysis, Humans, Insulin blood, Male, Muscles analysis, Obesity blood, Obesity physiopathology, Oxygen Consumption, Pyruvates blood, Thyroid Hormones blood, Obesity diet therapy, Physical Exertion
- Abstract
To study the capacity for moderate endurance exercise and change in metabolic fuel utilization during adaptation to a ketogenic diet, six moderately obese, untrained subjects were fed a eucaloric, balanced diet (base line) for 2 wk, followed by 6 wk of a protein-supplemented fast (PSF), which provided 1.2 g of protein/kg ideal body wt, supplemented with minerals and vitamins. The mean weight loss was 10.6 kg. The duration of treadmill exercise to subjective exhaustion was 80% of base line after 1 wk of the PSF, but increased to 155% after 6 wk. Despite adjusting up to base line, with a backpack, the subjects' exercise weight after 6 wk of dieting, the final exercise test was performed at a mean of 60% of maximum aerobic capacity, whereas the base-line level was 76%. Resting vastus lateralis glycogen content fell to 57% of base line after 1 wk of the PSF, but rose to 69% after 6 wk, at which time no decrement in muscle glycogen was measured after >4 h of uphill walking. The respiratory quotient (RQ) during steady-state exercise was 0.76 during base line, and fell progressively to 0.66 after 6 wk of the PSF. Blood glucose was well maintained during exercise in ketosis. The sum of acetoacetate and beta hydroxybutyrate rose from 3.28 to 5.03 mM during exercise after 6 wk of the PSF, explaining in part the low exercise RQ. The low RQ and the fact that blood glucose and muscle glycogen were maintained during exhausting exercise after 6 wk of a PSF suggest that prolonged ketosis results in an adaptation, after which lipid becomes the major metabolic fuel, and net carbohydrate utilization is markedly reduced during moderate but ultimately exhausting exercise.
- Published
- 1980
- Full Text
- View/download PDF
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