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Query: UMLS:C0243026 (sepsis)
 52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epinephrine produces smaller incremental increases in plasma glucose concentration and rate of glucose appearance (Ra) in septic rats compared with nonseptic animals. In the present study, we investigated the role of insulin in the diminished response of septic rats to epinephrine-induced increases in glucose turnover. Glucose kinetics were assessed by the infusion of [6-3H]-glucose in conscious catheterized rats made septic by subcutaneous injections of live Escherichia coli. Epinephrine was infused at 1 micrograms/min/kg for 2 hours in the presence and absence of somatostatin and mannoheptulose (SRIF + MH). In comparison to nonseptic control animals, epinephrine-induced increases in plasma glucose concentration and glucose Ra were blunted by more than 50% in the septic rats. Infusion of SRIF + MH with epinephrine restored the blunted response to normal. During the infusion of epinephrine alone, the plasma insulin concentration in the septic rats was 2.8-fold higher than the nonseptic controls. SRIF + MH lowered the plasma insulin concentrations in both the nonseptic and septic rats to less than 10 microU/mL. SRIF + MH reversed the sepsis-induced hyperglucagonemia, but did not prevent a slight increase in glucagon levels during the epinephrine infusion in the nonseptic rats. In a second study, septic rats infused with SRIF + MH and replacement insulin showed a smaller increase in glucose concentration and glucose production in response to epinephrine than did septic animals administered SRIF + MH and no insulin. These results indicate that insulin plays an important role in the diminished response of septic rats to epinephrine.
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PMID:Role of insulin in the blunted glucose metabolic response of septic rats to epinephrine. 197 24

Kinetics of plasma free palmitate and stearate were measured in control and septic-traumatized rats to determine the contribution plasma free fatty acids make to increased resting energy expenditure. Measurements were made at 24 hr after insult using a primed, 4-hr continuous infusion of selected (1-14C) fatty acid. The plasma concentration of palmitate was increased and stearate was decreased in sepsis-trauma rats compared to plasma concentrations in healthy control rats. Fatty acid turnover rates during sepsis-trauma were changed from control turnover rates in the same direction as plasma concentrations. Oxidation rates for palmitate and stearate at 24 hr after induction of sepsis-trauma were not different from oxidation rates in control rats. Plasma free fatty acids were concluded not to exhibit increased oxidation after sepsis-trauma and not to contribute extra energy during hypercatabolism. This finding contrasts with glucose and amino acids which have an increased oxidation rate during hypercatabolism.
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PMID:Palmitate and stearate kinetics in the rat during sepsis and trauma. 198 31

Peripheral glucose uptake can occur by either insulin- or noninsulin-mediated mechanisms, and the two pathways appear to be regulated independently. Using the euglycemic hyperinsulinemic clamp technique, we have previously demonstrated that sepsis induces whole body insulin resistance. The purpose of the present study was to determine whether infection also alters noninsulin-mediated glucose uptake (NIMGU) and, if so, which tissues are affected. Studies were performed in chronically catheterized conscious rats under either basal (6 mM glucose, 30 microU/ml insulin) or insulinopenic conditions to determine NIMGU. Hypermetabolic sepsis was induced by sc injections of live Escherichia coli, and 24 h later a tracer amount of [U-14C]deoxy-2-glucose was injected for the determination of the in vivo glucose metabolic rate (Rg) in selected tissues. Our results indicate that NIMGU is the predominant route of glucose disposal in both septic and nonseptic rats, accounting for 79-83% of the total rate of glucose disposal. Because the rate of whole body glucose disposal was increased by sepsis, the absolute rate of NIMGU was 46% higher in septic rats than in nonseptic animals. This increase was the result of the elevated Rg in liver, spleen, ileum, and lung. Sepsis also increased whole body insulin-mediated glucose uptake by 88% under basal conditions, and this was due to an enhanced glucose uptake by muscle and skin. In insulinopenic animals in which the plasma glucose concentration was elevated to 17 mM, whole body glucose disposal increased by 107% in nonseptic animals, but by only 32% in septic rats. The hyperglycemic-induced increment in organ Rg was smaller in all tissues examined from septic animals. However, the absolute rate of whole body and tissue glucose utilization was not different between the two groups. These results indicate that gram-negative infection increases whole body NIMGU, which results from an enhanced rate of glucose utilization by tissues rich in mononuclear phagocytes, including the liver, spleen, ileum, and lung, but not by muscle.
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PMID:Gram-negative infection increases noninsulin-mediated glucose disposal. 198 54

This study aims to elucidate the in vivo metabolic response of different liver cells following a short-term (30 min) infusion of a nonlethal dose of human recombinant tumor necrosis factor (TNF). In vivo glucose uptake of different tissues and isolated liver cells was determined by a sequential double-labeling version of the tracer 2-deoxyglucose technique. Following TNF administration glucose uptake was increased in the liver, lung, spleen, and skin while it was not changed in muscle and testis. In response to TNF infusion neutropenia developed which was sustained for 40 min. The number of lymphocytes in the blood was also decreased after the termination of TNF infusion. This short-term infusion of TNF, however, was not accompanied by marked sequestration of leukocytes into the liver. In vivo glucose uptake in response to TNF was doubled in the Kupffer cells and increased by 56% in hepatic endothelial cells. Glucose uptake of parenchymal cells was not significantly affected. The prompt increase of glucose uptake in the reticuloendothelial cells of the liver, primarily in the Kupffer cells, following TNF administration suggests that a similar metabolic response of these cells to sepsis may be mediated at least in part by TNF. It is suggested that the increased glucose uptake by the hepatic nonparenchymal cells is a reflection of the immunomodulatory effect of TNF.
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PMID:Tumor necrosis factor increases in vivo glucose uptake in hepatic nonparenchymal cells. 199 33

To determine the importance of bacteremia in hospitalized patients with diarrhea in Bangladesh, from September 1982 through August 1983 the authors obtained blood for culture from 1,824 patients who were suspected of having sepsis (44% of all admissions). Nontyphoid bacteremia occurred in 243 patients. The most common pathogens were the Enterobacteriaceae (n = 66 episodes), Staphylococcus aureus (n = 65), Pseudomonas aeruginosa and other non-glucose-fermenting bacilli (n = 50), Streptococcus pneumoniae (n = 40), and Haemophilus influenzae (n = 16). When compared with an equal number of control patients without bacteremia, bacteremic patients were significantly (p less than 0.05) more likely to be under 1 year of age (46.5% of bacteremic patients vs. 30.0% of control patients) and more often had abdominal tenderness (20.1% vs. 11.5%), hypoproteinemia (a serum protein level less than 60 g/liter) (58.9% vs. 42.9%), and a prior intravenous infusion (49.0% vs. 30.9%). The case-fatality rate was 29.7% in bacteremic patients versus 7.8% in controls (relative risk (RR) = 3.8, p less than 0.001). Factors that were associated with an increased risk of death in bacteremic patients were infection with a Gram-negative pathogen (RR = 2.48), decreased peristalsis (RR = 2.66), hypoproteinemia (RR = 3.36), hypothermia (RR = 2.54), and hypotension (RR = 2.19). Bacteremia appears to be an important link between diarrheal illness and death in Bangladesh. In children with diarrhea who are suspected of being septic, early implementation of antimicrobial therapy that is effective against the broad range of pathogens identified appears to be indicated.
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PMID:Bacteremia during diarrhea: incidence, etiology, risk factors, and outcome. 200 Aug 55

A guideline for early diagnosis of metabolic disorders affecting central nervous system during neonatal and early infancy was presented. Clinical manifestations associated with inborn errors of metabolism in the neonatal period are poor feeding, vomiting, diarrhea, abnormalities in muscle tonus, dyspnea, convulsion, coma and so on, and these are not specific to each disorder. However, such symptoms or signs as described below have often intimate relation to metabolic disorders: (1) previous children died of undetermined causes during early infancy; (2) complication of sepsis; (3) onset in the early neonatal period; (4) developmental and growth retardation. When newborns and infants have these symptoms or signs, we should start simple screening studies immediately for metabolic disorders, including CBC, hepatic function tests, blood glucose, lactate, pyruvate, ketone bodies, ammonia, blood gas analysis, urinalysis (including non-glucose reducing substance tests and FeCl3 reaction) and so on. As for CBC, we have to make our own effort to find spherocytosis and vacuoles in lymphocytes. Family history, especially the mother's personal history, is indispensable. During physical examinations, we must pay attention to facial appearance, skin color, macroglossia, hair abnormalities, peculiar odor of the urine and hepatosplenomegaly. When abnormality is found in these clinical signs or simple laboratory examinations, we should not hesitate to start dietary treatment even if special examinations for differential diagnosis are on the way.
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PMID:[CNS disorders caused by metabolic disorders]. 201 2

Two similar cohorts of low birth weight infants whose size was appropriate for gestational age randomly received either aztreonam-arginine plus ampicillin (n = 15) or gentamicin plus ampicillin (n = 15) for empiric treatment of neonatal sepsis. The regimens were infused together with glucose at greater than 5 mg/kg per minute, and immediate (4 hours) and cumulative (3 days) effects were assessed. Serum arginine and insulin values rose immediately after administration of aztreonam (containing 0.15 mmol of arginine per kilogram), but there were no changes in the gentamicin-treated cohort; no differences occurred in either cohort in serum concentrations of glucose, ammonia, potassium, creatinine, and bilirubin. After 3 days of antibiotic therapy (n = 13), the baseline serum arginine concentration was almost twice as high in the aztreonam group and showed a similar further rise and fall during the 4 hours after infusion; arginine urinary fractional excretion (normalized to creatinine clearance) decreased in the gentamicin group. The indirect bilirubin concentration rose more (p less than 0.001) in the aztreonam-treated infants (5.1 to 11.5 mg/dl (87 to 196 mumol/L] than in the gentamicin-treated infants (5.5 to 8.1 mg/dl (94 to 138 mumol/L)). Thus a modest differential bilirubin response and modestly elevated baseline serum arginine level occurred after the 3-day low-arginine doses of this study; serum ammonia and glucose concentrations were not affected. Aztreonam-arginine in neonates was well tolerated metabolically, and we believe that it can be used safely in conjunction with attention to glucose and bilirubin metabolism.
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PMID:Metabolic tolerance to arginine: implications for the safe use of arginine salt-aztreonam combination in the neonatal period. 204 Sep 35

Cecal ligation and puncture (CLP) sepsis and the impact of maternal milk were studied in young rats from 10 to 28 days of age. Ten- and 14-day-old rats were highly resistant to CLP; 24 hr survival was 90% and 97%, respectively. However, survival decreased to 55% and 30%, respectively, in 21- and 28-day-old rats. No differences in plasma glucose and lactate were seen in rats from 10 to 18 days of age, but 21-day-old rats became significantly hypoglycemic and hyperlacticacidemic after CLP. In rats maintained on an exclusive maternal milk diet from 14 to 21 days of age, survival after CLP was improved (55% versus 94%); P less than .05), hypoglycemia did not occur, and hyperlacticacidemia was blunted. But this protective effect of maternal milk was not observed during endotoxemia in the young rat. These results suggest important differences between the models of CLP sepsis and endotoxemia in the young rat.
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PMID:Sepsis in the young rat: maternal milk protects during cecal ligation and puncture sepsis but not during endotoxemia. 206 40

Glucose dyshomeostasis and insulin resistance are well-documented characteristics of sepsis. The insulin resistance could be manifested in a decreased peripheral glucose uptake and/or an increased hepatic glucose output. To investigate the hepatic and peripheral responses to insulin in a three-day model of sepsis, 14 mongrel dogs were studied. Animals were randomly assigned to a SEPTIC (n = 5), SHAM (n = 4), or CONTROL (n = 5) group. Sepsis was induced in anesthetized dogs via a midline laparotomy with subsequent placement of a fecal-soaked gauze sponge around intestines. SHAM and CONTROL dogs were pair-fed with the SEPTIC dogs. On the third day, animals were anesthetized, intubated, and ventilated. Via a left-side laparotomy, electromagnetic flow probes were placed to measure hepatic arterial and portal venous blood flows. Cannulas were placed in femoral, portal, and hepatic veins and femoral artery to measure hepatic outputs of glucose, lactate, and oxygen during hyperinsulinemic-euglycemic clamps ranging from 0.4 to 4,000 mU insulin/min. Portal venous insulin concentrations in SEPTIC animals were significantly increased compared to CONTROL animals during 0.4 and 4 mU insulin/min infusions. An insulin infusion rate of 40 mU/min significantly decreased net hepatic glucose output (NHGO) in CONTROL animals but did not affect NHGO in SHAM or SEPTIC animals. An insulin infusion rate of 4,000 mU/min significantly decreased NHGO in all groups. An attempt to analyze the ED50 of the three dose-response curves was inconclusive. Glucose infusion rates (GIR) increased during insulin infusion but the GIR were not different between groups at any insulin infusion rate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatic insulin resistance during canine sepsis. 206 41

The activity of phosphate-dependent glutaminase and glutamine metabolism by tissues known markedly to utilize or synthesize glutamine (or both) were studied in rats made septic by cecal ligation and puncture technique and compared with the same measures in rats that underwent sham operation (laparotomy). Blood glucose level was not markedly different in septic rats, but lactate, pyruvate, alanine, and glutamine levels were markedly increased. Conversely, blood ketone body concentrations were significantly decreased in septic rats. Both plasma insulin and glucagon levels were markedly elevated in response to sepsis. The maximal activity of phosphate-dependent glutaminase was decreased in the small intestine, increased in the kidney and mesenteric lymph nodes, and unchanged in the liver of septic rats. Arteriovenous concentration difference measurements across the gut showed a decrease in the net glutamine removed from the circulation in septic rats. Arteriovenous concentration difference measurements for glutamine showed that both renal uptake and skeletal muscle release of the amino acid were increased in response to sepsis, whereas measurements across the hepatic bed showed a net uptake of glutamine in septic rats. Enterocytes isolated from septic rats exhibited a decreased rate of utilization of glutamine and production of glutamate, alanine, and ammonia, whereas lymphocytes isolated from septic rats showed an enhanced rate of utilization of glutamine and production of glutamate, aspartate, and ammonia. It is concluded that, during sepsis, glutamine uptake and metabolism are enhanced in renal and lymphoid tissue but decreased in that of the small intestine, with increased rates of release by skeletal muscle; however, the liver appears to utilize glutamine in septic rats.
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PMID:Maximal activity of phosphate-dependent glutaminase and glutamine metabolism in septic rats. 206 39


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