UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of varying levels of exercise on oxygen uptake, CO2 production, blood pressure, arterial blood gasses, and arterial concentrations of glucose, insulin, and growth hormone were examined in ten normal weight and ten moderately overweight young men. At comparable external work loads with a bicycle ergometer, the lean men required less oxygen than the obese men. When oxygen uptakes were matched during exercise on a treadmill, the lean men were walking on a steeper grade or at a higher rate than the obese men. The efficiency of exercise as assessed by the relation between oxygen uptake and work did not differ between the two groups. Blood pressure rose more in the obese during exercise than in the lean. The fall in lactate and rise in bicarbonate was of greater magnitude during cycle ergometry than during treadmill exercise. Obese and lean men, however, showed similar changes. With each level of exercise, there was a fall in arterial insulin levels, but the concentrations in the blood of overweight men always remained significantly above that of the normal men. Growth hormones tended to be higher in the normal weight men, but the differences were usually not significant, and there was no significant rise with exercise in either group until the highest levels of work were achieved. Glucose concentrations tended to be higher in the obese men, but fell to constant levels in both groups during exercise. Blood pressure rose to a greater extent in the overweight men during exercise.
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PMID:Some respiratory and metabolic effects of exercise in moderately obese men. 1 81

Accumulation of p-aminohippurate (PAH) and N-methylnicotinamide (NMN) by renal cortical slices was used to estimate transport capacity for organic anions and cations, respectively. In a previous study, renal organic anion transport appeared to be selectively depressed in animals rendered obese by high fat feeding. However, the effects of obesity could not be discretely separated from the effects of the 30% fat diet used to produce the obesity. Genetically obese hyperglycemic mice provided a model to determine the effect of obesity on renal transport systems without the complication due to diet. Accumulation of both PAH and NMN was depressed in renal cortical slices from genetically obese mice. Addition of plasma from thin or obese animals increased PAH accumulation by slices from thin animals. Accumulation by slices from obese animals was unaffected by addition of plasma. Oxygen consumption with acetate in the medium was less in kidneys from obese mice than kidneys from thin mice. Thus, in addition to inhibition of transport capacity, renal cortex of genetically obese mice has a biochemical defect that prevents response to stimulators. It is concluded that several renal functions are depressed in the genetically obese hyperglycemic mouse. Whether the depressed function results from the obesity or is concomitant with the gene for obesity is as yet undertermined.
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PMID:Renal transport of organic acids and bases in genetically obese mice. 12 45

The role of substrate cycles in metabolic control was first indicated over ten years ago, but the recent interest in such cycles has developed from the direct demonstration by isotopic techniques of their existence in various tissues. I propose that substrate cycles form part of a logical series of biochemical mechanisms that exist to increase the sensitivity of non-equilibrium reactions to changes in concentrations of metabolic regulators. The possible importance of such cycles for provision of precise metabolic regulation in the tissues of the normal subject and the trained athlete is proposed. Furthermore, cycling may provide a mechanism by which hormones can change the magnitude of response in a tissue to a given metabolic signal, without interfering in the biochemistry of the basic control mechanism. It is, however, possible to extend the role of cycling to heat generation and thus to controlled energy loss by an organism. Heat generation by substrate cycles may be important as an acute mechanism for maintaining the body temperature in man in response to a sudden decrease in the environmental temperature; alcoholic hypothermia would be explained by inhibition of substrate cycling in the liver, and accidental hypothermia in the elderly could be explained by decreased capacity of substrate cycles with age. If heat generated by the cycles is rapidly lost to the environment, the expenditure of energy to maintain this heat loss could explain, in part, the physiological phenomena of the thermic response to food and the oxygen debt which is always observed after exercise. Finally, the energy expended in these ways could be part of a general biochemical mechanism for maintenance of the correct body weight; a decrease in the capacity of substrate cycles might be one factor involved in the development of obesity.
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PMID:Substrate cycles: their metabolic, energetic and thermic consequences in man. 15 56

Thirty asymptomatic men and 19 asymptomatic women were monitored during one night's sleep to determine the incidence of breathing abnormalities and oxygen desaturation in normal subjects. Twenty men accounted for 264 episodes of nocturnal oxygen desaturation or abnormal breathing. Women never experienced oxygen desaturation, and only three had a total of nine episodes of apnea. These sex differences were highly significant (P less than 0.003). In men, increasing age and obesity correlated positively with the incidence of nocturnal oxygen desaturation and abnormal breathing. Four asymptomatic men weighing more than 90 kg dropped their saturation to very low levels (68 to 72 per cent). Abnormal breathing and oxygen desaturation during sleep in subjects with chronic obstructive lung disease of the syndrome of hypersomnolence with periodic breathing may represent the superimposition of smoking or obesity on a normal tendency to snoring and oxygen desaturation in men.
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PMID:Sleep apnea, hypopnea and oxygen desaturation in normal subjects. A strong male predominance. 21 12

Oxygen consumption was determined in 10--12-wk-old fa/fa and non-fa/fa rats at ambient temperatures of 10 degrees--40 degrees C. The fa/fa rats exhibited a lower oxygen consumption than non-fa/fa rats from 10 degrees--30 degrees C, but not at 35 degrees C and 40 degrees C. A lower oxygen consumption was also observed among fa/fa rats as early as 18 days of age, prior to the phenotypic expression of apparent obesity. Fourteen hundred microliter O2 consumed/hr/g body weight at STP was used as a value, below which future obese rats could be identified among 18-day-old pups from fa/+ X fa/+ crosses. Only a 10% error was found in the use of this value for the early identification of the fa/fa genotype.
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PMID:Consumption of O2 and early detection of fa/fa genotype in rats. 49 72

The metabolic response of one- and two-week-old obese (ob/ob) and lean mice to acute thermal stress, and the influence of maternal diet on body fat and metabolic rates of these mice, were evaluated. Both obese and lean pups increased their rate of oxygen consumption 62 to 67% when exposed to 25 degrees C for 20 minutes rather than to 35 degrees C. Obese pups exposed to an intermediate temperature (30 degrees C), however, increased their rate of oxygen consumption less (35%) than did lean mice (55%) exposed to the same temperature. Reports in the literature suggest that adult obese mice have a markedly reduced ability to increase their oxygen consumption when cold-stressed, but the present results indicate that young obese mice may have less impairment in their capacity to increase oxygen consumption. Two-week-old obese pups contained more fat and consumed less oxygen than lean littermates. The maternal diet was manipulated to increase the body fat content of two-week-old pups to equal that of obese mice, but obese pups still consumed less oxygen than did the lean pups. We, thus, conclude that factors other than differences in body fat content are responsible for the lowered oxygen consumption observed in young obese mice.
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PMID:Influence of acute thermal stress and maternal diet on metabolic rate of obese (ob/ob) and lean mice at two weeks of age. 53 5

1. The capacity ofr thermoregulation and thermogenesis in lean and genetically obese (ob/ob) mice has been investigated. 2. At 4 degrees C ob/ob mice rapidly die of hypothermia, because of a reduced capacity for cold-induced thermogenesis, but the animals are able to survive if previously adapted to 12 degrees C. 3. At all environmental temperatures between 30 degrees C and 10 degrees C the body temperature of ob/ob mice is 2.0-2.5 degrees C below that of lean animals. This may be due to a lower "setting" for body temperature. 4. At 34 degrees C the oxygen consumption of obese mice is greater than that of the lean animals while at 30 degrees C it is similar. When the environmental temperature is below 30 degrees C the oxygen consumption of the lean mice is greater. The obese animals therefore expend less energy on thermoregulatory thermogenesis. 5. The capacity for non-shivering thermogenesis was measured in lean and obese mice by investigating the effect of an injection of L-nor-adrenaline (1000 microgram/kg body weight) on the metabolic rate at 31 degrees C. Non-shivering thermogenesis was reduced by one-half in the obese animals. 6. One cause of the obesity of the ob/ob mouse is its high metabolic efficiency. We suggest that this high metabolic efficiency is due, at least in part, to less energy being expended on thermoregulatory thermogenesis.
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PMID:Thermoregulation and non-shivering thermogenesis in the genetically obese (ob/ob) mouse. 56 45

Factors associated with length of stay in three London teaching hospitals during 1972 and 1975 were examined in patients treated for myocardial infarction, cerebrovascular disease, inguinal hernia without obstruction, and gall stones. Statistical analyses were carried out with multiple regressions on log lengths of stay.Increased length of stay was associated with infection in all four groups and with the seriousness of operative procedures in all but patients with cerebrovascular disease. Although age was a significant variable in patients with hernias and gall stones, it had relatively little practical effect on length of stay. Other significant variables in at least one disease were obesity, number of abnormalities in blood chemistry, administration of parenteral fluids or oxygen, or use of monitoring devices, and whether chest radiography was carried out, blood electrolytes and urea were measured, or anticoagulants were used. Patients with cerebrovascular disease who were not discharged to their own homes stayed on average more than two and a half times longer than other patients.Between a third and a half of the variance was explained by these variables and the variation among firms. The method described is reproducible in other hospital settings, and the study shows that much new information could be available routinely without mounting expensive field trials.
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PMID:Firm, patient, and process variables associated with length of stay in four diseases. 63 Feb 21

Oxygen consumption and locomotor activity were studied in mice developing obesity after neonatal administration of monosodium glutamate (MSG) and in untreated controls. MSG-treated mice became obese in the absence of increased food intake. Locomotor activity was significantly less in MSG-treated mice 2, 10, and 20 wk after weaning. Oxygen consumption expressed in terms of the Lee index was not significantly different at 2 wk after weaning although at 10 and 20 wk it was significantly lower in MSG-treated mice. Plasma thyroxine was not different between MSG-treated and control mice. It is suggested that diminished energy expenditure is the major factor in the etiology of obesity after neonatal administration of MSG.
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PMID:Measurement of oxygen consumption and locomotor activity in monosodium glutamate-induced obesity. 64 5

Increased quantitiy of lean body mass, obstructive ventilatory syndrome and elevated initial maximal arterial pressure were found in 47 obese as compared with 70 control males, all aged 18--24. With the progressive cycling loading on a veloergometer up to an oxygen uptake of 1.5 1/min--1, considerably higher oxygen uptake was established in the obese as comparable loading grades and in some of the cases--hypeptensive reaction was found. The physical work capacity (PWC170) is insignificantly decreased and the ventilatory parameters were unchanged as compared with the control group. With obesity among young males, the physical work capacity was concluded to be decreased and the frequency of cardiac activity, with submaximal loading, to be increased on both cases--per one unit of body weight, per one unit of lean body mass resp.
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PMID:[Ergometric assessment of lung-heart function in obesity in young men]. 67 98

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