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)

Intestinal mucosal atrophy, as induced by total parenteral nutrition (TPN) and/or prolonged bowel rest, is hypothesized to enhance bowel endotoxin (LPS) translocation and may alter host responses to infection. To examine the effect of TPN-induced bowel atrophy on the response to LPS, 12 healthy volunteers were randomized to receive either enteral feedings (ENT, n = 6) or seven days of TPN without oral intake (TPN, n = 6). Enteral or TPN feedings were terminated 12 hours before the study period when a constant dextrose infusion (50 mg/kg/hour) was initiated and continued throughout the subsequent study period. After placement of arterial, hepatic vein, and femoral vein catheters, metabolic parameters were determined before and for six hours after an intravenous E. coli LPS challenge (20 U/kg). Subsequent peak levels of arterial glucagon (ENT, 189 +/- 39 pg/mL; TPN, 428 +/- 48; p less than 0.01), arterial epinephrine (ENT, 236 +/- 52 pg/mL; TPN, 379 +/- 49; p less than 0.05) and hepatic venous cachectin/tumor necrosis factor (cachectin/TNF) (ENT, 250 +/- 56 pg/mL; TPN, 479 +/- 136; p less than 0.05) were significantly higher in the TPN group than in the ENT group. The extremity efflux of lactate (ENT, -16 +/- 4 micrograms/min-100cc tissue; TPN, -52 +/- 13; t = 2 hours; p less than 0.05) and of amino acids (ENT, -334 +/- 77 nmol/min-100cc tissue; TPN, -884 +/- 58; t = 4 hours; p less than 0.05) were higher in the TPN subjects after the endotoxin challenge. Circulating C-reactive Protein (CRP) levels measured 24 hours postendotoxin were also significantly higher in the TPN subjects (ENT, 1.7 +/- 0.2 mg/dL; TPN, 3.2 +/- 0.3; p less than 0.01). Hence the counter-regulatory hormone and splanchnic cytokine responses to LPS were enhanced after TPN and bowel rest. This is associated with a magnified acute-phase response, peripheral amino acid mobilization, and peripheral lactate production. Thus antecedent TPN may influence the metabolic alterations seen in infection and sepsis via both an exaggerated counter-regulatory hormone response as well as an enhanced systemic and splanchnic production of cytokines.
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PMID:Total parenteral nutrition and bowel rest modify the metabolic response to endotoxin in humans. 250 83

We have evaluated the quantitative relationship between lipopolysaccharide (LPS, endotoxin), fibrinopeptide A (FPA), antithrombin (AT), protein C (PC) and extrinsic pathway inhibitor (EPI) in plasma from 39 consecutively admitted patients with systemic meningococcal disease (SMD). The most severely ill patients with fulminant meningococcal septicemia (n = 13, 6 dead) had significantly (p less than 0.01) higher plasma levels of LPS and FPA and lower levels of PC and AT on admission as compared with the less severe clinical presentations (n = 26, 1 dead). The levels of EPI on admission were significantly (p less than 0.05) higher in nonsurvivors vs survivors with fulminant septicemia. As the disease progressed, the levels of LPS, FPA, AT and PC declined, while the levels of EPI increased. Three of six nonsurviving septicemic patients had levels of EPI greater than 200% within 16 hours of admission vs two of 30 survivors (p = 0.02). The results suggest that increasing levels of LPS in SMD elicit increasing consumption coagulopathy, contributing to the organ pathophysiology. The kinetics of EPI, inhibiting the thromboplastin-FVIIa-FXa complex, differs markedly from the kinetics of AT and PC i.e. increases as opposed to decreases.
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PMID:The quantitative association of plasma endotoxin, antithrombin, protein C, extrinsic pathway inhibitor and fibrinopeptide A in systemic meningococcal disease. 251 Mar 54

Dietary n-3 polyunsaturated fatty acids (PUFAs) have been reported to improve clinical outcome in a number of inflammatory diseases including burns and sepsis. One mechanism contributing to the anti-inflammatory effect is the incorporation of n-3 PUFAs into membrane phospholipids which decreases macrophage eicosanoid production. We hypothesize that an additional mechanism for their effects is an alteration of membrane signal transduction that decreases macrophage responsiveness to inflammatory stimuli. Kupffer cells, the fixed macrophages of the liver, were obtained from rats pair fed diets for 6 weeks with 15% of calories supplied as menhaden (high n-3), corn (control), or safflower (high n-6) oils. The effects of the dietary oils on Kupffer cell membrane signal transduction and eicosanoid production were assessed by measuring inositol phospholipid (PI) metabolism, intracellular calcium responses, and prostaglandin E2 (PGE2) production to the inflammatory signals endotoxin (LPS) and platelet activating factor (PAF). The menhaden oil diet resulted in significant incorporation of n-3 PUFAs into total cellular PUFAs compared to corn and safflower oil. (total n-3 PUFAs, 28.1% menhaden vs 2.1% corn vs 1.2% safflower, P less than 0.03). This incorporation altered signal transduction of PAF as both PI turnover (65% +/- 10% of corn oil) and calcium response (0.6-fold vs 5.0-fold for corn oil) were significantly reduced in the menhaden oil group. (P less than 0.05) The menhaden oil diet also reduced significantly PGE2 production in response to PAF and LPS (corn, 348 +/- 23 pg/ml; menhaden, 48 +/- 6 pg/ml, P less than 0.01). We conclude that, in addition to modulating eicosanoid production, n-3 PUFAs can also alter macrophage membrane signal transduction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of Kupffer cell membrane phospholipid function by n-3 polyunsaturated fatty acids. 254 Dec 81

A novel intravenous therapy consisting of polyvalent IgG antibodies to lipopolysaccharide (LPS, endotoxin) obtained from screening of blood donors was used for treatment of patients with profound septic endotoxin shock. Investigation of the anti-LPS IgG pharmacokinetics in the 10 patients revealed time related changes in the plasma concentrations of anti-LPS IgG, endotoxin, tumour necrosis factor (TNF) and the clinical parameters. A decrease in serum concentrations of IgG and IgM antibodies to LPS was observed prior to the immunotherapy as well as in a clinical example of lethal septicemia without anti-LPS immunotherapy. Increasing serum concentrations of anti-LPS IgG during antibody infusion was followed by a decrease in the concentration of endotoxin and TNF. In survivors an IgM and IgG anti-LPS antibody response developed. Using clinical parameters and APACHE II clinical severity scores to measure the clinical condition, a beneficial effect was observed within 24 h corresponding to a decrease in the calculated expected mortality rate from more than 80% to about 50%. Five patients (55%) expired during the study. One patient died in the early septic shock phase. One patient expired due to superimposed hemorrhagic shock. Three immunosuppressed patients died 1-2 weeks after initial recovery, 1 with fungal sepsis and 2 patients due to pseudomonas infection.
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PMID:Preliminary study on treatment of septic shock patients with antilipopolysaccharide IgG from blood donors. 261 11

Intravenous injections of lipopolysaccharide (LPS, 20 micrograms/kg) and of a factor originating from LPS-stimulated macrophage monolayers (Neutrophil Recruitment Inhibitory Factor, NRIF) inhibited neutrophil migration into peritoneal cavities induced by carrageenin in rats for up to 24 h. Mononuclear cell migration induced by thioglycollate was also inhibited by the same treatment with LPS but was not affected by NRIF. We conclude that NRIF specifically blocks neutrophil migration and we suggest that NRIF released into the circulation may constitute an important determinant of septicemia.
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PMID:Macrophages stimulated with lipopolysaccharide release a selective neutrophil recruitment inhibitory factor: an in vivo demonstration. 262 Jan 85

Pulmonary complications secondary to postburn sepsis are a major cause of death in burned patients. Using an in vitro organotypic culture system, we examined the effect of E. coli endotoxin (LPS) on lung cell surfactant synthesis. Our results showed that E. coli endotoxin (1.0, 2.5, 10 micrograms LPS/ml) was capable of suppressing the incorporation of 3H-choline into de novo synthesized surfactant, lamellar bodies (LB), and common myelin figures (CMF) at 50%, 68%, and 64%, respectively. In a similar study, we were able to show that LPS also inhibited 3H-palmitate incorporation by cultured lung cells. LPS-induced suppression of surfactant synthesis was reversed by hydrocortisone. Our results suggest that LPS may play a significant role in reducing surfactant synthesis by rat lung cells, and thus contribute to the pathogenesis of sepsis-related respiratory distress syndrome (RDS) in burn injury.
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PMID:Endotoxin suppresses surfactant synthesis in cultured rat lung cells. 264 10

TNF is a small protein secreted by activated monocytes and macrophages that mediates the in vivo effects of endotoxin. When injected into experimental animals, TNF reproduces the picture of septic or endotoxin shock. In addition, antibodies to TNF protect animals against the deleterious effects of IV injections of either LPS or live bacteria. Specifically, the available evidence suggests that TNF may be necessary for the organ injury and failure seen in sepsis. However, TNF probably is not the final common pathway to shock and tissue injury. Inhibition of cyclooxygenase is protective from the lethal effects of both LPS and TNF infusion, suggesting that prostanoids play an important, and perhaps more proximal role in the generation of tissue injury. In addition, TNF is produced and cleared from the blood-stream within a short period of time after an LPS stimulus, suggesting that TNF sets into motion a chain of events that may be self-perpetuating even in the absence of further TNF stimulus. In the near future, the treatment of sepsis may involve the administration of antibodies both to TNF and to LPS. Cyclooxygenase inhibitors should also begin to play a role in the therapy of sepsis. In the more distant future it is likely that we will be able to manipulate the state of activation of genes that code for TNF to exert some control over its production and secretion. It is perhaps within our grasp to finally reduce the morbidity and mortality of this lethal condition.
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PMID:Role of tumor necrosis factor in sepsis and acute lung injury. 264 25

Monoclonal antibodies (MAbs) directed against gram-negative bacterial lipopolysaccharide (endotoxin, LPS) are currently being evaluated as an adjunctive form of therapy for lethal gram-negative bacterial sepsis and shock. The exact binding site within the LPS molecule against which antibody should be directed in order to maximize both cross-reactivity among bacterial strains and protective capacity has not been established. By developing a panel of MAbs that bound to various regions of the LPS molecule (O saccharide; outer, intermediate, and inner core; lipid A), we were able to determine that some epitopes in the inner core/lipid A region of LPS were broadly shared among different genera of gram-negative microorganisms, on the basis of immunoblot analysis of MAb binding to LPS. Pretreatment with lower doses of O saccharide-specific MAbs (2 micrograms per animal) provided protection against a lethal intraperitoneal challenge of viable Salmonella minnesota bacteria, compared with core LPS-specific MAbs, which required at least 1.0 mg of MAb per mouse to provide a similar degree of immunoprotection. Although inner core LPS-specific MAbs are less protective than O saccharide-specific MAbs, these MAbs will probably be more useful in the treatment of gram-negative sepsis because of their ability to bind to many types of LPS and enhance survival during infection, which is caused by a wide variety of gram-negative bacteria.
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PMID:Treatment of experimental gram-negative bacterial sepsis with murine monoclonal antibodies directed against lipopolysaccharide. 276 23

Human peripheral adherent cells from splenectomized subjects, human spleen cells and mouse spleen cells were tested for IL-1 production in vitro in presence or absence of synthetic tuftsin (Thr-Lys-Pro-Arg). Application of synthetic tuftsin to peripheral blood adherent cells from normal donors as well as from splenectomized subjects induces IL-1 production. In splenectomized subjects the extent of induction was more evident than in controls. In human splenic cells tuftsin stimulates IL-1 production without KLH or LPS. In mouse spleen cells tuftsin alone did not stimulate the IL-1 secretion. However, addition of tuftsin to mouse spleen cells incubated with KLH augmented significantly the IL-1 secretion. As removal of the spleen leads to tuftsin deficiency, our present findings may perhaps explain the fulminant nature of the postplenectomy sepsis and some immune disturbances described in the postplenectomy state.
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PMID:Tuftsin stimulates IL-1 production by human mononuclear cells, human spleen cells and mouse spleen cells in vitro. 278 82

The hepatic failure associated with severe sepsis is characterized by specific, progressive, and often irreversible defects in hepatocellular metabolism (1). Although the etiologic microbe can often be identified, the direct causes and mechanisms of the hepatocellular dysfunction are poorly understood. We have hypothesized that Kupffer cells (KC), which interact with ambient septic stimuli, respond by providing signals to adjacent hepatocytes (HC) in sepsis . Furthermore, we have provided evidence (2, 3) that KC activated by LPS from Gram-negative bacteria can induce profound changes in the function of neighboring HC in coculture. In our model, coculture of either KC (2) or peritoneal macrophages (Mphi)(3) with HC normally promotes HC protein synthesis ([(3)H]leucine incorporation). The addition of LPS or killed Escherichia colt' to such cocultures induces a profound decrease in HC protein synthesis, as well as qualitative changes ([(35)S]methionine, SDS-gel electrophoresis) in protein synthesis without inducing HC death (2, 3) . In this report we show that the inhibition in protein synthesis is mediated via an L-arginine-dependent mechanism. The metabolism of L-arginine by activated Mphi to substances with cytostatic and even lethal effects on target cells is a relatively recent discovery. After the description by Stuehr and Marletta (4, 5) that LPS- triggered Mphi produced nitrite/nitrate (NO(2)(-)/NO(3)(-)), Hibbs et al. (6, 7) and Iyengar et al. (8) demonstrated that L-arginine was the substrate for the formation of both these nitrogen end products and citrulline. A role for the arginine-dependent mechanism in Mphi tumor cytotoxicity (6, 7) and microbiostatic activity (9) has been suggested. However, the in vivo functions of this novel Mphi mechanism have not yet been defined, but it is possible that there are both physiologic as well as pathologic roles. Our in vitro results raise the possibility that some metabolic responses to microbial invasion maybe partially mediated by the L-arginine-dependent mechanism. What other metabolic responses are affected and the possible pathologic consequences remain to be studied.
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PMID:An L-arginine-dependent mechanism mediates Kupffer cell inhibition of hepatocyte protein synthesis in vitro. 292 30

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