UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of the Staub-Traugott effect or facilitated glucose disposal after successive glucose loads has remained elusive. In earlier publications, we have shown it can be independent of circulating hormone and free fatty acid levels. We have also proposed that it might partially depend on the rapid induction of glycolytic pathways, which are known to be depressed by prolonged fast. Mature rats were given 1.75 gm/kg glucose doses intravenously at 60-minute intervals. Respiratory CO2 was collected at 15-minute intervals over a 120-minute period following administration of the carrier glucose plus 6 microCi/100 gm rat weight of 14C-D-glucose, given either as the first, second, or third challenge. In rats fasted 14 hours there was potentiation of labeled CO2 recovered after each successive load. After three days of starvation, both relative 14C-glucose oxidation to 14CO2 as well as absolute 14CO2 increments after each load were lower. The changes in relative oxidation of an intravenous glucose load might partly account for the facilitated disposal of blood glucose seen in the second and third hours in overnight-fasted rats (Staub-Traugott effect). However, although rats fasted for three days had suppressed the Staub effect, the increments in oxidation were attenuated but still present, suggesting that alterations of other pathways must participate in the disappearance of this effect after fasting.
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PMID:Potentiation of 14C-glucose oxidation by priming glucose loads: effect of starvation. 642 7

Methanogenic bacteria with a coccobacillus morphology similar to Methanobrevibacter ruminantium were isolated from the bovine rumen. One isolate, 10-16B, represented a previously undescribed rumen population that, unlike M. ruminantium, synthesized coenzyme M, grew rapidly (mu = 0.24 h-1) on H2-CO2 in a complex medium, had simple nutritional requirements, and metabolized formate at reported rumen concentrations. H2 was metabolized to partial pressures 10-fold lower than those reported for the rumen. After H2 starvation for 26 h, strain 10-16B rapidly resumed growth when H2 was made available. The minimum concentrations of acetate (6 mM) and ammonia (less than 7 mM) that were required for optimal growth were lower than the reported acetate and ammonia concentrations in the rumen. Isoleucine and leucine stimulated growth, but only at concentrations (greater than 50 microM) higher than those reported for the rumen. Another coccobacillary methanogenic organism that synthesized coenzyme M was isolated from a different animal as were organisms that required an exogenous supply of coenzyme M. In general, methanogenic bacteria that required an exogenous supply of coenzyme M had lower maximum growth rates and more complex nutritional requirements than organisms that synthesized the cofactor. The ability of all isolates to metabolize formate below the detection limit of 10 microM indicated that, in contrast to previous reports, methanogenic bacteria have the potential to directly metabolize formate in the rumen. This study demonstrated that there are physiologically diverse populations of coccobacillary methanogenic bacteria in the rumen that can interact competitively and cooperatively.
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PMID:Rapidly growing rumen methanogenic organism that synthesizes coenzyme M and has a high affinity for formate. 643 95

Natural differences in 13C/12C ratios of various metabolic fuels can produce systematic changes in the 13C/12C ratio of breath CO2, and therefore introduce errors into 13CO2 breath tests. To gain insight into the potential problem, we compared 13C/12C ratios of plasma macronutrients to those of breath CO2 under conditions that should alter the percentages of carbohydrate and lipid being oxidized. In rats, 48 h of starvation decreased the 13C/12C ratio of breath CO2 by 3.5%. At this time the 13C/12C ratio of breath CO2 was very similar to that of plasma lipids. In humans, 30 min of heavy exercise increased the breath 13CO2/12CO2 ratio by 1.3%. These changes in breath 13C/12C ratios could be predicted from 13C/12C ratios of plasma macronutrients and the percentage of carbon dioxide derived from each macronutrient, but only when compared within the same populations. For example, the 13C/12C ratios of plasma macronutrients of residents of Chicago, Illinois (USA) and Tokyo (Japan) differed by 1-3%. An empirical correction of 13CO2 breath test data is recommended when breath tests are run under conditions that will change metabolic fuel utilization.
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PMID:Influence of metabolic fuel on the 13C/12C ratio of breath CO2. 644 7

Some aspects of renal energy and lipid metabolism were studied in the postnatal period of rats. Oxygen consumption, RQ values, stimulation of oxygen consumption by exogenous substrates (8 mM glucose, 8 mM acetate, 1 mM palmitate), and conversion of acetate or palmitate to CO2 were measured in slices of cortex and inner medulla. The results obtained in 5-day-old rats are not essentially different from those observed in adults. On the other hand, the phenomenon of triacylglycerol storage in kidney cortex during starvation (well known in adult animals) is absent in the newborn rat. It can be demonstrated first in 30-day-old rats. At the same age renal arteriovenous concentration differences for total glycerol indicate a significant uptake during starvation and a release in the fed state.
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PMID:Some aspects of renal energy and lipid metabolism in newborn rats. 648 88

The effect of diabetes on the metabolism of glucose and lactate was examined in isolated rat cerebral microvessels. In rats with diabetes induced with streptozotocin, glucose oxidation to CO2 by the microvessels was decreased by 54-83% and its conversion to lactate by 21-61%. Insulin therapy for several days or starvation for 48 h both lowered blood glucose levels in the diabetic rats and restored microvessel glucose metabolism to normal. Cerebral microvessels consist principally of the capillaries that constitute the blood-brain barrier. Direct assessment of the blood-brain barrier in vivo using the brain uptake index (BUI) technique revealed a close parallel to the findings in the microvessels. Thus, hexose transport was diminished in diabetic rats and restored to normal by both insulin therapy and starvation. The oxidation of [1-14C]lactate to CO2 like that of glucose was depressed in microvessels of diabetic rats. In contrast to glucose, however, the transport of lactate across the blood-brain barrier in vivo was not altered. These findings suggest that diabetes suppresses glucose metabolism in rat cerebral microvessels and downregulates glucose transport across the blood-brain barrier. They also suggest that both of these processes are regulated by chronic alterations in blood glucose concentration rather than by insulin per se.
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PMID:Diabetes-induced alterations of glucose metabolism in rat cerebral microvessels. 649 67

Isolated liver cells prepared from starved sheep converted palmitate into ketone bodies at twice the rate seen with cells from fed animals. Carnitine stimulated palmitate oxidation only in liver cells from fed sheep, and completely abolished the difference between fed and starved animals in palmitate oxidation. The rates of palmitate oxidation to CO2 and of octanoate oxidation to ketone bodies and CO2 were not affected by starvation or carnitine. Neither starvation nor carnitine altered the ratio of 3-hydroxybutyrate to acetoacetate or the rate of esterification of [1-14C]palmitate. Propionate, lactate, pyruvate and fructose inhibited ketogenesis from palmitate in cells from fed sheep. Starvation or the addition of carnitine decreased the antiketogenic effectiveness of gluconeogenic precursors. Propionate was the most potent inhibitor of ketogenesis, 0.8 mM producing 50% inhibition. Propionate, lactate, fructose and glycerol increased palmitate esterification under all conditions examined. Lactate, pyruvate and fructose stimulated oxidation of palmitate and octanoate to CO2. Starvation and the addition of gluconeogenic precursors stimulated apparent palmitate utilization by cells. Propionate, lactate and pyruvate decreased cellular long-chain acylcarnitine concentrations. Propionate decreased cell contents of CoA and acyl-CoA. It is suggested that propionate may control hepatic ketogenesis by acting at some point in the beta-oxidation sequence. The results are discussed in relation to the differences in the regulation of hepatic fatty acid metabolism between sheep and rats.
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PMID:The control of fatty acid metabolism in liver cells from fed and starved sheep. 661 80

Although alcoholism is a leading cause of morbidity and mortality of middle-aged Americans, there are no data available pertaining to the consequences of Laennec's cirrhosis on total body energy requirements or mechanisms for maintaining fuel homeostasis in this patient population. Therefore, we simultaneously used the techniques of indirect calorimetry and tracer analyses of [14C]palmitate to measure the nature and quantity of fuels oxidized by patients with biopsy-proven alcoholic cirrhosis and compared the results with values obtained from health volunteers. Cirrhotic patients were studied after an overnight fast (10-12 h). Normal volunteers were studied after an overnight fast (12 h) or after a longer period of starvation (36-72 h). Total basal metabolic requirements were similar in overnight fasted cirrhotic patients (1.05 +/- 0.06 kcal/min per 1.73 m2), overnight fasted normal subjects (1.00 +/- 0.05 kcal/min per 1.73 m2), and 36-72-h fasted normal volunteers (1.10 +/- 0.06 kcal/min per 1.73 m2). Indirect calorimetry revealed that in cirrhotic patients the percentages of total calories derived from fat (69 +/- 3%), carbohydrate (13 +/- 2%), and protein (17 +/- 4%) were comparable to those found in 36-72-h fasted subjects, but were clearly different from those of overnight fasted normal individuals who derived 40 +/- 6, 39 +/- 4, and 21 +/- 2% from fat, carbohydrate, and protein, respectively. These data are strikingly similar to data obtained through tracer analyses of [14C]palmitate, which showed that in overnight fasted patients with alcoholic cirrhosis, 63 +/- 4% of their total CO2 production was derived from oxidation of 287 +/- 28 mumol free fatty acids (FFA)/min per 1.73 m2. In contrast, normal overnight fasted humans derived 34 +/- 6% of their total CO2 production from the oxidation of 147 +/- 25 mumol FFA/min per 1.73 m2. On the other hand, values obtained from the normal volunteers fasted 36-72 h were similar to the overnight fasted cirrhotic patients. These results show that after an overnight fast the caloric requirements of patients with alcoholic cirrhosis are normal, but the nature of fuels oxidized are similar to normal humans undergoing 2-3 d of total starvation. Thus, patients with alcoholic cirrhosis develop the catabolic state of starvation more rapidly than do normal humans. This disturbed but compensated pattern for maintaining fuel homeostasis may be partly responsible for the cachexia observed in some patients with alcoholic cirrhosis. This study also showed remarkably good agreement between the results obtained with indirect calorimetry and those obtained with 14C tracer analyses.
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PMID:Nature and quantity of fuels consumed in patients with alcoholic cirrhosis. 663 May 28

Embryonic chick pigment epithelial cells in culture require glucose as their major energy source for long-term growth, pigment formation, and colony organization. Cell number increases with glucose concentration at least up to 5.0 mM. Cells can be grown with glutamine as the major energy source but produce comparable cell numbers for only the first 3 days in culture, after which they cease growing. However, they are able to metabolize glutamine at a two to sixfold higher rate than cells grown in the presence of glucose as measured by CO2 release and by incorporation into protein. In cells grown in the presence of both glucose and glutamine, basal ATP levels were 31.1 nmoles/mg protein; P-creatine averaged 15.2 nmoles/mg protein and showed marked variability between experimental groups. During starvation, P-creatine levels fell while ATP levels remained relatively constant. Glucose was required for the recovery of P-creatine to prestarvation levels when measured 5 min after refeeding. Because of these marked changes in P-creatine concentration as a function of nutritional status, the ATP/P-creatine ratio becomes a useful measure of the energy state of the cell.
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PMID:An examination of the efficiency of glucose and glutamine as energy sources for cultured chick pigment epithelial cells. 669 1

The effect of a number of conditions on the amount of cyanophycin granule polypeptide [multi-L-arginyl poly(L-aspartic acid)] formed in the unicellular cyanobacterium Aphanocapsa 6308 was determined. Light, CO2, sulfur, and phosphorus starvation as well as the addition of arginine to culture media increased the amount of cyanophycin granule polypeptide in cells when compared with that in cells grown under conditions optimal for growth. Nitrogen limitation and reduction of growth temperature to 30 degrees C decreased the amount of cyanophycin granule polypeptide on a dry-weight basis. Shift-up and shift-down experiments suggest cyanophycin granule polypeptide may be a reserve nitrogen polymer in Aphanocapsa 6308.
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PMID:Cyanophycin granule polypeptide formation and degradation in the cyanobacterium Aphanocapsa 6308. 676 88

The total care of the critically ill patient must include attention to his nutritional status from the onset of illness. The essential role of protein in body functions must be stressed; unfortunately, it is this essential compartment that will be called upon for gluconeogenesis in stress or starvation. Simple technics of bedside nutritional assessment have been developed and should be familiar to all those who deal with critically ill patients. The multiple technics of optimal nutritional support should become a standard component of the therapeutic armamentarium of those who provide intensive care. The goal must always be to use the GI tract whenever possible, avoiding the numerous complications associated with intravenous nutrition. Care must be taken to avoid CO2 overload of an embarrassed respiratory system by the nutritional support. Whether nutritional or pulmonary support should take priority can usually be resolved by a team approach toward the patient. It is hoped that this superficial review of nutritional support will stimulate the desire for further knowledge of this rapidly changing and interesting aspect of critical care.
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PMID:Nutritional considerations in the critically ill. 680 12

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