UMLS:C0036690 - FACTA Search

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyperglycemia is a risk marker of morbidity and mortality in acute critical illness, and insulin therapy seems to be beneficial in this patient group. Whether this is true for a population of sepsis patients, as such, has not been investigated in clinical trials, but evidence from in vitro studies and experimental sepsis suggests that this may be the case. The endocrinology of septic patients is characterized by a shift in the balance between insulin and its counter-regulatory hormones favoring the latter. This leads to prominent metabolic derangements composed of high release and low use of glucose, amino acids, and free fatty acids (FFA), resulting in increased blood levels of these substrates. Circulating, proinflammatory mediators further enhance this state of global catabolism. Increased levels of glucose and FFA have distinct effects on inflammatory signaling leading to additional release of proinflammatory mediators and endothelial and neutrophil dysfunction. Insulin has the inherent capability to counteract the metabolic changes observed in septic patients. Concomitantly, insulin therapy may act as a modulator of inflammatory pathways inhibiting the unspecific, inflammatory activation caused by metabolic substrates. Given these properties, insulin could conceivably be serving a dual purpose for the benefit of septic patients.
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PMID:The roles of insulin and hyperglycemia in sepsis pathogenesis. 1465 7

Insulin therapy to maintain euglycemia increases survival in critically ill patients. To explore possible mechanisms of action, we investigated the effect of endotoxin on circulating cytokines, free fatty acids (FFA), and leukocytes during manipulated plasma glucose and insulin concentrations. Ten volunteers underwent three trials each, receiving an intravenous bolus of endotoxin (0.2 ng/kg) during normoglycemia (trial A, control), during a hyperglycemic clamp at 15 mM (trial B), and during a hyperinsulinemic euglycemic clamp (trial C). Endotoxin induced an increase in neutrophil count, a decrease in lymphocyte count, and an increase in serum levels of TNF-alpha, IL-6, and FFA. There was no difference in the TNF response between the three trials; the IL-6 levels were increased during the late phase of trials B and C compared with trial A. The endotoxin-induced elevation in FFA in trial A was suppressed during trials B and C. Clamping (trials B and C) caused a reduction in lymphocyte count that persisted after endotoxin injection. We conclude that low-dose endotoxemia triggers a subclinical inflammatory response and an elevation in FFA. The finding that high insulin serum concentrations induce a more prolonged increase in the anti-inflammatory cytokine IL-6 and suppress the levels of FFA suggests that insulin treatment of patients with sepsis may exert beneficial effects by inducing anti-inflammation and protection against FFA toxicity, and thereby inhibit FFA-induced insulin resistance.
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PMID:Effect of hyperglycemia and hyperinsulinemia on the response of IL-6, TNF-alpha, and FFAs to low-dose endotoxemia in humans. 1472 28

Insulin decreases the mortality and prevents the incidence of infection and sepsis in critically ill patients. The molecular and cellular mechanisms by which insulin improves survival have not been defined. The purpose of the present study was to determine the effect of insulin on the inflammatory reaction during endotoxemia. Endotoxemic rats were randomly divided into two groups to receive either saline or insulin. The effects of insulin on hepatic signal transcription factor mRNA expression, proinflammatory and antiinflammatory cytokine mRNA and protein concentration were determined. Insulin administration did not change glucose or electrolyte levels, but significantly decreased proinflammatory signal transcription factors [CCAAT/enhancer-binding protein-beta, signal transducer and activator of transcription-3 and-5, RANTES (regulated on activation, normal T cell expressed and secreted)] and cytokine expression in the liver and serum levels of IL-1beta, IL-6, macrophage inflammatory factor, and TNFalpha. Insulin administration further decreased high mobility group 1 protein in the serum compared with controls. In addition, insulin increased antiinflammatory cytokine expression in the liver; serum levels of IL-2, IL-4, and IL-10; and hepatic suppressor of cytokine signaling-3 mRNA expression. Insulin modulates the inflammatory response by decreasing the proinflammatory and increasing the antiinflammatory cascade. Because glucose and electrolyte levels did not differ between insulin-treated patients and controls, we hypothesize that the effects are direct antiinflammatory mechanisms of insulin, rather than indirect, through modulation of glucose or electrolyte metabolism.
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PMID:Insulin attenuates the systemic inflammatory response in endotoxemic rats. 1519 48

Infections direct amino acids away from growth and skeletal muscle accretion toward the hepatic synthesis of acute-phase proteins. The loss of skeletal muscle protein stores results in both a decrease in muscle function and an increase in mortality. In general, muscle protein synthesis is decreased in rodent models of sepsis, as well as after the injection of components of the bacterial cell wall, such as lipopolysaccharide. Although the overexpression of proinflammatory cytokines is known to hasten the loss of skeletal muscle protein, it is not known whether this represents a direct effect of cytokines or results from secondary changes in the IGF system. Plasma concentrations of IGF-I are dramatically lowered by infection in rats, mice, pigs, and steers. The drop in IGF-I often occurs despite an increase in the plasma concentration of somatotropin. Animals are therefore considered to be GH resistant. The IGF bioactivity is determined not only by the plasma concentration of the ligand, but also by IGFBP; IGFBP-3 is the most abundant of these binding proteins and undergoes proteolysis during some catabolic states. In contrast to IGFBP-3, the plasma concentration of inhibitory IGFBP, such as IGFBP-1, is increased during infection. Insulin-like growth factor-binding protein-1 accumulates in skeletal muscle, where it can potentially inhibit IGF-dependent protein synthesis. Insulin-like growth factor-I and IGFBP-1 are regulated at the level of gene transcription by proinflammatory cytokines. Recent studies demonstrate that bacterial components that activate immune cells also activate the innate immune response in skeletal muscle. Lipopolysaccharide increases proinflammatory cytokine messenger RNA expression in muscle from control mice, but not from mice with a mutation in the lipopolysaccharide receptor. Lipopolysaccharide also increases cytokine expression in human and mouse myoblasts. Local expression of cytokines in skeletal muscle may negatively regulate the autocrine synthesis of IGF-I. Current work is focused on deciphering the mechanism by which muscle becomes GH resistant and the development of therapies to maintain muscle protein stores during infection.
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PMID:Alteration of somatotropic function by proinflammatory cytokines. 1547 89

Atrophy of skeletal muscle is common to a number of conditions, including cancer, sepsis, AIDS, renal failure, diabetes, severe trauma, and burns. In all cases, protein synthesis in skeletal muscle is depressed, whereas protein degradation is increased through an increase in activity and expression of the ubiquitin-proteasome proteolytic pathway. This pathway is not responsive to simple nutritional intervention. Certain agents, including glucocorticoids, cytokines, proteolysis-inducing factor (PIF), and oxidative stress, are thought to be responsible for the induction of the ubiquitin-proteasome pathway in skeletal muscle in catabolic conditions. Insulin suppresses activation of this pathway, and loss of insulin action in diabetes leads to muscle wasting. Cytokines, PIF, and reactive oxygen species (ROS) are thought to induce proteasome expression through activation of the transcription factor nuclear factor kappa B (NF-kappaB). Targets for therapeutic intervention include antagonists of the inducers of proteasome expression, intracellular signaling pathways leading to activation of NF-kappaB, and the enzymes inducing ubiquitin conjugation to the substrate protein (myosin), as well as the proteasome itself. Anticytokine and anti-PIF antibodies are effective in attenuating muscle protein degradation in certain experimental animal models,and glucocorticoid receptor antagonists are effective in the treatment of sepsis. Agents that inhibit NF-kappaB activation, such as resveratrol, thalidomide, ibuprofen, eicosapentaenoic acid, and beta-hydroxy-beta-methylbutyrate, are effective in the preservation of skeletal muscle mass in cachexia. These results suggest that the ubiquitin-proteasome pathway is an appropriate therapeutic target to prevent muscle wasting.
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PMID:The ubiquitin-proteasome pathway as a therapeutic target for muscle wasting. 1591 24

Sepsis promotes insulin resistance and reduces protein synthesis in skeletal muscle of adults. The effect of sepsis on insulin-stimulated muscle protein synthesis has not been determined in neonates, a highly anabolic population that is uniquely sensitive to insulin. Overnight fasted neonatal pigs were infused for 8 h with endotoxin [lipopolysaccharide (LPS), 0 and 10 mug.kg(-1).h(-1)]. Glucose and amino acids were maintained at fasting levels, insulin was clamped at either fasting or fed (2 or 10 muU/ml) levels, and fractional protein synthesis rates were determined at the end of the infusion. LPS infusion induced a septic-like state, as indicated by a sustained elevation in body temperature, heart rate, and cortisol. At fasting insulin levels, LPS reduced fractional protein synthesis rates in gastrocnemius muscle (-26%) but had no effect on the masseter and heart. By contrast, LPS stimulated liver protein synthesis (+28%). Increasing insulin to fed levels accelerated protein synthesis rates in gastrocnemius (controls by +38%, LPS by +60%), masseter (controls by +50%, LPS by +43%), heart (controls by +34%, LPS by +40%), and diaphragm (controls by +54%, LPS by +29%), and the response to insulin was similar in LPS and controls. Insulin did not alter protein synthesis in liver, kidney, or jejunum in either group. These findings suggest that acute endotoxemia lowers basal fasting muscle protein synthesis in neonates but does not alter the response of protein synthesis to insulin.
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PMID:Modulation of muscle protein synthesis by insulin is maintained during neonatal endotoxemia. 1647 73

Increased cardiovascular risk in diabetes mellitus has been well-documented. In contrast, it is not widely known, that the relation between degree of hyperglycemia and mortality of diabetics or nondiabetics with acute coronary syndromes (ACS) shows a positive correlation. Insulin treatment significantly improves survival of patients with both ACS and septicemia. New onset diabetes or impaired glucose tolerance can be detected in significant proportion of patients with AMI or coronary artery disease. New onset disturbance of carbohydrate metabolism has a powerful negative influence on clinical prognosis, therefore it's early diagnosis is considered an important new challenge for clinicians. The authors discuss prognostic significance of hyperglycemia-induced macroangiopathy, postprandial blood glucose, and concomitant metabolic state, respectively, furthermore potential therapeutic role of insulin in treatment of ischemic, reperfusional, and toxic metabolic disturbances.
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PMID:[Role of blood glucose in prediction of cardiovascular risk]. 1651 30

Pyruvic acid, an intermediate metabolite of glucose, an effective scavenger of reactive oxygen species (ROS), inhibits tumor necrosis factor-alpha production and NF-kappaB signaling pathways, reduces circulating levels of HMGB1 (high mobility group B1), decreases COX-2 (cyclo-oxygenase-2), iNOS (inducible nitric oxide synthase), and IL-6 (interleukin-6) mRNA expression in liver, ileal mucosa, and colonic mucosa in animal models with endotoxemia. These studies suggest that pyruvate has potent anti-oxidant and anti-inflammatory actions. Insulin influences the production of pyruvate by its action on glucose metabolism and pyruvate is an insulin secretagogue. This suggests that in metabolic syndrome X, obesity, hypertension, diabetes mellitus, and cancer (where insulin resistance is common due to enhanced TNF-alpha production) pyruvate plays a role. This may have relevance to the use of glucose-insulin-potassium regimen in these clinical conditions, sepsis, and cancer.
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PMID:Pyruvate is an endogenous anti-inflammatory and anti-oxidant molecule. 1664 87

The blood-brain barrier (BBB) prevents the unrestricted movement of peptides and proteins between the brain and blood. However, some peptides and regulatory proteins can cross the BBB by saturable and non-saturable mechanisms. Leptin and insulin each cross the BBB by their own transporters. Impaired transport of leptin occurs in obesity and accounts for peripheral resistance; that is, the condition wherein an obese animal loses weight when given leptin directly into the brain but not when given leptin peripherally. Leptin transport is also inhibited in starvation and by hypertriglyceridemia. Since hypertriglyceridemia occurs in both starvation and obesity, we have postulated that the peripheral resistance induced by hypertriglyceridemia may have evolved as an adaptive mechanism in response to starvation. Insulin transport is also regulated. For example, treatment of mice with lipopolysaccharide (LPS) increases insulin transport across the BBB by about threefold. Since many of the actions of CNS insulin oppose those of peripheral insulin and since LPS releases proinflammatory cytokines, enhanced transport of insulin across the BBB could be a mechanism which promotes insulin resistance in sepsis. The brain endothelial cells which comprise the BBB secrete many substances including cytokines. Such secretion can be stimulated from one side of the BBB with release into the other side. For example, it appears that adiponectin can inhibit release of interleukin-6 from brain endothelial cells. Overall, the BBB represents an important interface in mediating gut-brain axes.
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PMID:The blood-brain barrier as a regulatory interface in the gut-brain axes. 1690 39

The purpose of this study was to examine whether selective iNOS inhibition can restore the hemodynamic changes and reduce the nitrotyrosine levels in the cerebral cortex of rats with streptozotocin-induced diabetes during endotoxin-induced shock. The study was designed to include three sets of experiments: (1) measurement of changes in systemic hemodynamics, (2) measurement of biochemical variables, including iNOS activity and nitrotyrosine formation in the brain, and (3) assessment of mortality rate. Rats were randomly divided into four groups: group 1, control; group 2, LPS: Escherichia coli endotoxin, 10.0 mg/kg (i.v.) bolus; group 3 (i.v.) LPS and L-N6-(1-iminoethyl)-lysine (L-NIL), 4mg/kg (i.p.); and group 4, LPS and NG-nitro-L-arginine methyl ester (L-NAME), 5 mg/kg (i.p.). In nondiabetic rats, administration of L-NIL prevented the hemodynamic and biochemical changes, and increases in plasma nitrite and cerebral nitrotyrosine levels induced by LPS. Administration of L-NAME partially prevented these LPS-induced changes. On the other hand, in diabetic rats, administration of L-NIL only partially prevented the hemodynamic and biochemical changes, and increases in plasma nitrite and cerebral nitrotyrosine levels associated with LPS. Administration of L-NAME, however, had no effects on these LPS-induced changes in diabetic rats. There was a significant difference in nitrotyrosine levels between nondiabetic and diabetic rats in groups 2, 3, and 4 at 2 and 3 h after the treatment (at 3 h; nondiabetic--control, 4.6 +/- 0.4; LPS (i.v.), 8.9 +/- 1.0, LPS (i.v.) + L-NIL, 4.7 +/- 0.5; LPS (i.v.) + L-NAME, 7.1 +/- 0.9; diabetic--control, 5.5 +/- 0.4; LPS (i.v.), 13.6 +/- 1.2; LPS (i.v.) + L-NIL, 9.0 +/- 0.9; LPS (i.v.) + L-NAME, 13.0 +/- 1.0; densitometric units). Insulin therapy resulted in a decrease in iNOS activity (at 3 h: 1.0 +/- 0.5 fmol mg min), nitrotyrosine formation (at 3 h; 5.0 +/- 0.5, densitometric units), and mortality rates (30% at 6 h, 50% at 12 h) in the LPS (i.v.) + L-NIL group of diabetic rats. Selective iNOS inhibition in diabetic rats could not improve hemodynamic instability, chemical changes, iNOS activity, and nitrotyrosine formation during septic shock compared with the improvements observed in nondiabetic rats. Tight glucose control along with administration of L-NIL can result in more effective restoration of the biochemical changes of septicemia in diabetic rats. Thus, hyperglycemia may be one of the mechanisms related to the aggravation of endotoxin-induced shock.
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PMID:Effects of selective iNOS inhibition on systemic hemodynamics and mortality rate on endotoxic shock in streptozotocin-induced diabetic rats. 1760 61

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