Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The physiological significance of the hyperglucagonemia that occurs in patients with many catabolic conditions is unclear. The effect of hyperglucagonemia on resting metabolic rate (RMR) was studied in six normal subjects. Infusion of somatostatin (SRIH; 500 micrograms/h for 210 min) resulted in a 5-fold decrease in plasma C-peptide and a 2-fold decrease in plasma insulin and glucagon concentrations, but did not change RMR significantly. When glucagon (0.2 micrograms/kg X h), was infused with SRIH (500 micrograms/h for 210 min), the decreases in plasma C-peptide and insulin were similar to that during the infusion of SRIH alone, but plasma glucagon increased from 160 +/- 24 (+/- SEM) to 560 +/- 80 pg/mL (P less than 0.001). There was a significant increase in RMR during the entire period (210 min) of glucagon infusion (P less than 0.01). During the last hour of the glucagon plus SRIH infusion, the RMR was 1.38 +/- 0.10 Cal/min, which was 15% higher than the preinfusion RMR (1.19 +/- 0.10 Cal/min; P less than 0.01) and 14% higher than the RMR during the same period when SRIH alone was infused (1.21 +/- 0.11 Cal/min; P less than 0.01). When SRIH and glucagon were infused, protein oxidation (calculated from urinary nitrogen loss) was 52 +/- 5 mg/min, 29% higher than when SRIH alone was infused (40 +/- 5 mg/min; P less than 0.05). These results indicate that hyperglucagonemia during insulin deficiency results in an increase in energy expenditure, which may contribute to the catabolic state in many conditions.
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PMID:Hyperglucagonemia increases resting metabolic rate in man during insulin deficiency. 288 43

11 patients having major gastrointestinal surgery were allocated at random to receive either biosynthetic human growth hormone (BSHGH) 0.1 mg/kg or placebo daily for the first 7 postoperative days. All patients received the same intravenous feeding regimen, which contained 2.09 MJ glucose, 1.88 MJ fat, and 7 g N daily. Patients receiving BSHGH were in positive nitrogen balance throughout the study (mean 1.8 [SEM 0.4] g N/day) and those receiving placebo were in negative nitrogen balance (mean -0.9 [0.7] g N/day). Resting energy expenditure progressively increased in the patients receiving BSHGH (115.7% [14.8] on day 7) but remained unchanged in patients receiving placebo (99.35% [1.4]). Fat oxidation was nearly three times higher in the patients on BSHGH (4.09 [0.38] MJ/day) than in controls (1.38 [0.50]). Carbohydrate oxidation remained about the same in both groups. Whole-body protein turnover, synthesis, and breakdown were increased in the patients receiving growth hormone.
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PMID:Postoperative positive nitrogen balance with intravenous hyponutrition and growth hormone. 289 67

Urinary excretion of alanine aminopeptidase (AAP) is an extremely sensitive indicator of drug-induced renal tubular damage. The urinary excretion of AAP was determined in patients after enflurane anesthesia with or without concurrent aminoglycoside administration to determine if enflurane enhances the nephrotoxic potential of aminoglycosides. Twenty-two patients with normal renal function were studied. Ten received enflurane alone, eight received enflurane plus gentamicin or tobramycin, and four patients who underwent nitrous oxide and narcotic anesthesia were the control group. Preoperative values ranged from 1010 to 2461 microU/24 hour. Urinary AAP excretion increased significantly in both enflurane groups 2 days postoperatively (P less than 0.025). Patients who received both enflurane and aminoglycosides had significantly greater urinary AAP excretion on postoperative day 2 than did patients given enflurane alone: 21,342 +/- 4074 microU/24 hour and 6336 +/- 1496 microU/24 hour, respectively (mean +/- SEM, P less than 0.005). There was no change in AAP excretion in the control group compared to baseline; on day 3 AAP was 1412 +/- 710 microU/24 hour. No changes in blood urea nitrogen or serum creatinine levels were observed. These data suggest that enflurane increases the renal tubular effects of aminoglycosides, possibly increasing the risk of aminoglycoside renal toxicity.
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PMID:The increase in urinary alanine aminopeptidase excretion associated with enflurane anesthesia is increased further by aminoglycosides. 289 8

Few data are available on energy requirements of mechanically ventilated, critically ill children. We measured the resting energy expenditure in 18 mechanically ventilated patients between ages 2 and 18 years, using indirect calorimetry. All patients had fractional inspired oxygen concentration less than 0.6, no spontaneous respirations, hemodynamic stability, and no fever or active infection, and were receiving 5% dextrose. All subjects were hypermetabolic, since the measured resting energy expenditure divided by the predicted basal energy expenditure from the Harris-Benedict equations was 1.48 +/- 0.09 (mean +/- SEM). The energy requirements calculated using "injury factors" and "activity factors" adapted for adults is 1.62 times basal energy expenditure. The injury factor for the pediatric multiple trauma patients should be 1.25 compared with 1.35 in adults. In these pediatric intensive care patients 33% +/- 8% of the energy is derived from carbohydrates, 53% +/- 8% from fat, and 14% +/- 2% from protein oxidation. In individual critically ill pediatric patients, energy requirements should be estimated by measuring their resting energy expenditure whenever possible and adding 5% for their activity. In the absence of the actual measurement of resting energy expenditure, the recommended energy requirement is 1.5 times basal energy expenditure. In this acute phase of injury, the daily nitrogen requirement is 250 mg per kilogram of body weight.
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PMID:Measured energy expenditure in pediatric intensive care patients. 292 33

The concentration of atrial natriuretic peptide (hANP) in plasma from venous blood of healthy subjects was measured by radioimmunoassay. hANP from 5 mL of EDTA-treated plasma was adsorbed onto Sep-Pak C18 cartridges, which were eluted with methanol/trifluoroacetic acid (5 mL/L), 90/10 by volume. The eluates were concentrated by evaporation under nitrogen and lyophilized. After redissolving the samples in 0.5 mL of sodium phosphate buffer, we incubated 100-microL aliquots with anti-alpha-hANP for 24 h, then added 125I-labeled alpha-hANP tracer; 24 h later, we separated the bound and free fraction by adding an antibody/polyethylene glycol complex as the second antibody. The sensitivity of the assay was 2 pg per tube (B0-3 SEM). In the useful range of B = 15 to 85% of B0, CVs for within-run and between-run precision did not exceed 8 and 12%, respectively. The 50% intercept of the standard curve was at 12 pg per tube. hANP concentrations for 36 healthy adults ranged from 8 to 68 ng/L.
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PMID:Radioimmunoassay of atrial natriuretic peptides in human plasma. 293 35

In order to investigate the causative factors responsible for removal of mucous coat from the gill lamellae of young yellowtail, Seriola quinqueradiata by red tide, diazo-reactions were employed for planktons and their media. The concentration of NO2- in the medium containing the raphidophyceae, Chatonella antiqua (ca 2000 cells/ml), was 0.70 +/- 0.05 (mu g/ml +/- SEM). In addition, diazo-reaction positive substances (NOx) which may degenerate the mucous, was highly concentrated in the cortex (perikaryon) of Chattonella antiqua. Morphologically, mucocysts, and chloroplats were likewise present in the cortex. Mucocysts were packed with fine fibrous content. Histochemically, the mucocysts were stained with PAS and had an abundance of nitrogen oxides (NOx). We observed discharge of the fibrous material from the mucocysts. These results suggest that when Chattonella antiqua is passing between the gill lamellae, NOx discharged from the mucocysts may act on the mucous, leading to the degeneration and concomitant removal of the mucous coat from gill lamellae.
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PMID:Diazo-reaction positive substance observed in the cortex of Chattonella antiqua. 298 Jan 27

The acute phase of glomerular injury in a model of antiglomerular basement membrane, antibody-induced glomerulonephritis (antiGBM-GN) in rabbits was shown to be neutrophil-dependent using nitrogen mustard depletion studies. Administration of desferrioxamine (DFX) prevented the development of proteinuria in this model of renal injury [24 hr protein excretion (mean +/- SEM): antiGBM-GN/DFX = 16.2 +/- 2.9 mg compared with antiGBM-GN control = 271.5 +/- 92.2 mg, P less than 0.01]. Antibody binding levels, glomerular filtration rates, circulating complement and neutrophil counts, glomerular C3 deposition, and neutrophil infiltration did not differ between DFX treated and antiGBM-GN groups. In vitro assay systems to assess oxygen radical production [superoxide anion (O2-) and hydroxyl radical (OH.)] by neutrophils activated via the interaction of antiGBM antibody, GBM and complement were established. In these assays, DFX inhibited OH. production by immunologically-stimulated neutrophils (ISN) [nM diphenol/hr/10(6) cells, mean +/- SEM, ISN/DFX = 8 +/- 2 compared with ISN = 191 +/- 22, P less than 0.01] while production of O2- was not affected [nM O2-/hr/10(6) cells, mean +/- SEM, ISN/DFX = 29.1 +/- 4.3 compared with ISN = 32.6 +/- 2.5, P greater than 0.05]. These studies demonstrate that the iron chelator desferrioxamine can prevent neutrophil-dependent immune renal injury by interfering with neutrophil function. Treatment with the hydroxyl radical scavenger dimethylthiourea also significantly attenuated renal injury in antiGBM-GN. Together, the in vivo and in vitro data strongly suggest that neutrophil-dependent immunological renal injury is mediated via hydroxyl radical production by activated neutrophils within glomeruli.
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PMID:Hydroxyl radical mediation of immune renal injury by desferrioxamine. 302 99

Previous studies with neutrophils from newborn infants compared to neutrophils from healthy adults have documented increased respiratory burst activity including enhanced superoxide anion (O2-) production, nitroblue tetrazolium dye reduction, and hexose monophosphate shunt activity. To investigate the biochemical basis for these observations, we examined oxidative metabolism in membrane-rich fractions of neutrophils. Neutrophils from cord blood of vaginally delivered term infants or healthy adults were disrupted by nitrogen cavitation and subcellular fractions collected on discontinuous sucrose density gradients. Subcellular fractions of newborn neutrophils separated in a fashion identical with samples from healthy adults. Activity of alkaline phosphatase, a plasma membrane marker, was increased 4- to 5-fold in disrupted cells free from nuclei (postnuclear supernatant) as well as plasma membrane fractions from newborn samples compared to those from healthy adults. Content of lactoferrin, a specific granule marker, was decreased in postnuclear supernatants but equivalent in specific granule fractions of newborn cells compared to those from adults. No differences were noted in myeloperoxidase content of postnuclear supernatants or any other subcellular fraction. Plasma membrane fractions from phorbol myristate acetate-stimulated cord blood neutrophils made significantly more O2- than samples from adults (newborn 32.9 +/- 8.1 nmol O2-/min/mg protein mean +/- SEM, n = 3 versus adult 10.8 +/- 4.2, n = 3; p less than 0.05). Plasma membrane-rich fractions were also collected by the technique of differential centrifugation and kinetic parameters of the NADPH-dependent oxidase enzyme(s) were measured for vaginally delivered newborn and adult samples.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased activity of the respiratory burst in cord blood neutrophils: kinetics of the NADPH oxidase enzyme system in subcellular fractions. 302 58

Rats weighing 220 g were injected sc with zinc protamin glucagon 20 micrograms once daily (recurrent hyperglucagonemia) and zinc protamin glucagon 60 micrograms three times daily (chronic hyperglucagonemia); the controls received the vehicle three times daily. In the first group blood glucagon rose to above 200 ng/liter for 5 h every day; in the second group it constantly stayed above 600 ng/liter. After both 2 (n = 5) and 14 (n = 5) days treatment the control total blood alpha-amino-nitrogen (AAN) concentration was 4.3 +/- 0.1 mmol/liter, and the urea nitrogen synthesis rate was 4.9 +/- 0.4 mumol/(min.100 g BW) (mean +/- SEM) in controls. In recurrent hyperglucagonemic rats, treated for both 2 (n = 5) and 14 (n = 5) days, total AAN was 3.6 +/- 0.2 mmol/liter (P less than 0.05 vs. control) and urea nitrogen synthesis rate 4.5 +/- 0.8 mumol/(min.100 g BW). In chronic hyperglucagonemic, treated for both 2 (n = 5) and 14 (n = 5) days, total AAN was 2.2 +/- 0.1 mmol/liter (P less than 0.05 vs. control) and UNSR 7.9 +/- 0.8 mumol/(min.100g BW) (P less than 0.05 vs. control). The urea excretion was identical in controls and during recurrent hyperglucagonemia, but it was increased by 50% during chronic hyperglucagonemia. Food intake was the same in all groups. N Balances decreased from 10 mmol/24 h to 5 mmol/24 h (P less than 0.05) by chronic hyperglucagonemia. The total organ N content did not change by recurrent hyperglucagonemia, but in chronic hyperglucagonemia it decreased to 65-85% (P less than 0.01) in carcass, intestines, liver, and kidneys. In conclusion chronic but not recurrent hyperglucagonemia increases the rate of urea synthesis and decreases the blood amino acid concentration. This is suggested to be a reason for the loss of N from organs by chronic hyperglucagonemia.
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PMID:Loss of nitrogen from organs in rats induced by exogenous glucagon. 304 48

Hypermetabolism, increased heart rate, and lipolysis are responses to high catecholamine levels associated with burn injury. This study tests the hypothesis that adrenergic beta blockade in burns could reduce myocardial work, lipolysis, and negative nitrogen balance without adversely affecting cardiac or metabolic function. Eighteen patients with burns of 70 +/- 3% total burn surface area (TBSA) (Mean +/- SEM), were studied after a 5-day infusion of 2 mg/Kg of intravenous (I.V.) propranolol infusion every 24 hours without their cardiac output or resting energy expenditure being adversely reduced. Heart rate, left ventricular work, and rate pressure product were significantly reduced by 20, 22, and 36%, respectively (P less than 0.05). Plasma glucose, free fatty acids, triglycerides, and insulin levels remained unchanged. The rate of urea production, however, was significantly increased by 54 +/- 12% in fasted patients, and to a much lesser 12 +/- 2% in fed patients. The marked decrease in myocardial work afforded by propranolol administration may be of clinical benefit in the treatment of large burns. Variations in drug dosage and feeding regimens will, however, need to be perfected to limit catabolic effects.
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PMID:Effect of propranolol administration on hemodynamic and metabolic responses of burned pediatric patients. 305 28


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