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

Continuous infusion of a nonlethal dose of Escherichia coli lipopolysaccharide (LPS) (0.5 mg/kg) induced early (3 h) accumulation of polymorphonuclear leukocytes (PMNL) in rat liver followed by later (30 h) greater extravasation of mononuclear phagocytes (MNP) (E. B. Rodriguez de Turco and J. A. Spitzer, J. Leukocyte Biol. 48:488-494, 1990). Nonparenchymal liver cells from rats treated for 3 and 30 h with LPS were recovered by centrifugal elutriation, yielding a 23-ml/min fraction (endothelial cells) and a 45-ml/min fraction (PMNL, Kupffer cells, and MNP), and compared for their capacity for basal and agonist-stimulated superoxide (O2-) production. Stimulation with phorbol myristate acetate and opsonized zymosan caused a dose-dependent release of O2- from the 45-ml/min fraction derived from rats treated for 3 h with saline, but not from the 23-ml/min fraction. Further purification of the 45-ml/min fraction by discontinuous density gradient centrifugation into a Kupffer and a PMNL fraction revealed that most of the agonist-induced O2- release was generated by infiltrating PMNL at this early time point of LPS infusion. By 30 h of LPS infusion, although enhancement of the phorbol-12-myristate-13-acetate- and opsonized zymosan-stimulated release of O2- was observed in the 45-ml/min fraction, but not in the 23-ml/min fraction, the maximum release of O2- was smaller than that observed in the rats treated for 3 h. Our results support the following conclusions: (i) after a 3-h LPS infusion, PMNL found in the liver in increased numbers are also highly primed for agonist-stimulated release of O2-, while Kupffer cell priming is of a lesser extent; (ii) after a 30-h infusion of LPS, infiltrating MNP found in the liver in increased numbers are primed for agonist-induced O2- release, while priming of PMNL has diminished; (iii) at both 3 and 30 h of LPS infusion, liver endothelial cells are not significantly primed for agonist-stimulated O2- release; and (iv) in vivo priming by LPS infusion at both 3 and 30 h was not reversed by the experimental method used for cell recovery (ca. 3 h), thus suggesting that in vivo LPS priming of O2- release may ultimately lead to severe impairment of liver function and metabolism observed during endotoxemia and sepsis if not therapeutically blocked at an early time point.
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PMID:Continuous infusion of Escherichia coli endotoxin in vivo primes in vitro superoxide anion release in rat polymorphonuclear leukocytes and Kupffer cells in a time-dependent manner. 165 86

Neutrophils and neutrophil-derived oxidants have been implicated in the development of acute lung injury such as that seen in the adult respiratory distress syndrome (ARDS), in bronchopulmonary dysplasia (BPD), and in animal models of lung injury, including the isolated perfused lung. Both neutrophil-derived oxidant production and retention of neutrophils in the lung are required for injury in this model. Pentoxifylline can reduce lung injury from sepsis in the guinea pig and endotoxin-induced neutrophil sequestration and lung injury in the dog. It is also known to increase neutrophil deformability, which may affect retention in the pulmonary microvasculature. We evaluated neutrophil oxidant production, retention in isolated lungs, and neutrophil-mediated acute lung injury after phorbol myristate acetate (PMA) in the presence of pentoxifylline. Pentoxifylline (2 mM) significantly reduced superoxide anion and hydrogen peroxide production in vitro from PMA-stimulated neutrophils when pentoxifylline was directly added to the incubation mixtures, but not when neutrophils were preincubated with the agent. Pentoxifylline did not reduce retention of neutrophils in isolated lungs as determined by infusion of 111In-labeled neutrophils and gamma counting. Pentoxifylline prevented increases in total lung weight, lung-to-body-weight ratio, and perfusate thromboxane concentrations when it was present in perfusate buffer, whether or not neutrophils were preincubated in pentoxifylline prior to infusion into the lung. Pentoxifylline did not reduce injury to lungs perfused with glucose and glucose oxidase. We conclude that pentoxifylline reduces neutrophil oxidant production and neutrophil-dependent lung injury.
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PMID:Pentoxifylline reduces injury to isolated lungs perfused with human neutrophils. 166 Feb 29

Current knowledge of alveolar pathophysiology during early sepsis-induced acute lung injury (ALI) and the role of resident alveolar macrophages (AM) in mediating alveolar inflammatory events during sepsis is limited. Further, the effects of ibuprofen pretreatment upon alveolar pathophysiology and AM function during early sepsis-induced ALI is unclear. Utilizing repetitive bronchoalveolar lavage (BAL) in a porcine model of sepsis-induced ALI, we studied changes in alveolar cellular constituents, BAL protein content and molecular composition, and AM superoxide anion (O2-.) generation during early sepsis. The neutrophil percentage of recovered alveolar cells (17 +/- 8%, t = 300 min versus 2 +/- 1%, t = 0; p = 0.06) and the bronchoalveolar lavage total protein content (493 +/- 110 micrograms/ml, t = 300 min versus 109 +/- 18 micrograms/ml, t = 0; p less than 0.05) increased in septic animals. Increases in BAL fluid total protein were primarily due to low-molecular-weight plasma protein, indicating relative preservation of alveolar-capillary membrane size selectivity. Alveolar macrophages harvested following 300 min of sepsis generated significantly less O2-. following phorbol myristate acetate (PMA) stimulation compared to AM harvested at baseline. Ibuprofen pretreatment of septic animals completely blocked leakage of plasma proteins into the alveoli and attenuated neutrophil migration but did not prevent downregulation of AM O2-. generation. Increased alveolar-capillary membrane permeability, neutrophil migration into the alveoli, and downregulation of AM oxidant generation occur within hours of the onset of sepsis. Ibuprofen pretreatment significantly attenuates early sepsis-induced ALI without altering sepsis-induced AM dysfunction.
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PMID:Sepsis-induced lung injury and the effects of ibuprofen pretreatment. Analysis of early alveolar events via repetitive bronchoalveolar lavage. 184 66

Activated polymorphonuclear neutrophils (PMN) and neutrophil activating mediators such as tumor necrosis factor-alpha (TNF-alpha) are thought to be involved in the pathophysiology of sepsis and multiple organ failure syndrome (MOFS). In critically ill patients at high risk for the development of septic syndrome (n = 17) peripheral blood PMN were assayed for O2- and H2O2 production after stimulation with phorbol myristate acetate (PMA, 40 nM). Serum TNF-alpha levels were determined by ELISA. At the time of admission to the intensive care unit we found significant higher levels of TNF-alpha (P = 0.0001) in the serum of patients finally developing sepsis correlating to higher respiratory burst capability in comparison to nonseptic patients. Additionally we were able to demonstrate a significant (P = 0.0016) lower dismutation rate of O2- to H2O2 in deceased patients in comparison to survivors. These results give further evidence that elevated levels of circulating TNF-alpha and activated PMN play a significant role in the pathogenesis of septic syndrome in critically ill patients.
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PMID:Respiratory burst capability of polymorphonuclear neutrophils and TNF-alpha serum levels in relationship to the development of septic syndrome in critically ill patients. 184 53

Cytokines have been implicated in the modulation of fat metabolism after sepsis. Carnitine palmitoyltransferase (CPT), the regulatory enzyme of hepatic mitochondrial long-chain fatty-acid oxidation, is involved in the control of hepatic fat oxidation in sepsis. Using either H4IIe rat hepatoma cells or rat hepatocytes in primary culture, we tested the hypothesis that interleukin-1-alpha (IL-1 alpha) would modulate CPT transcription (CPT mRNA), CPT translation (35S-methionine CPT protein incorporation), and hepatic mitochondrial oxidation of 1-Carbon 14-labeled (14C) palmitate to ketone bodies (acid soluble products). We showed that IL-1 alpha significantly increased CPT mRNA, 35S-methionine incorporation CPT protein, and hepatic mitochondrial oxidation of 1-14C-palmitate to acid soluble products. We further hypothesized that the Ca2+ second messenger system may play a role in the IL-1 alpha induction of hepatic CPT gene transcription. We showed that either calcium ionophore (A23187) or phorbol myristate acetate increased CPT gene transcription and that either calcium chelation, protein kinase C inhibition (acridine orange), or chronic exposure to phorbol myristate acetate significantly inhibited IL-1 alpha induction of CPT mRNA. We conclude that the IL-1 alpha increases in hepatic mitochondrial fatty-acid oxidation may be, in part, secondary to increased CPT gene transcription and translation and that the Ca2+ second messenger system may play an important role in IL-1 alpha induction of CPT gene transcription.
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PMID:The Ca2+ second messenger system and interleukin-1-alpha modulation of hepatic gene transcription and mitochondrial fat oxidation. 185 38

Total parenteral nutrition (TPN) after trauma and sepsis has two major goals. One is the reduction of enhanced protein catabolism; the second is the avoidance of enhancement of whole-body glucose turnover. Glucose and xylitol differ in their quantitative utilization rate after trauma and sepsis. Maximal glucose utilization is reduced during such states, while the utilization of xylitol is more than doubled. In order to investigate whether these differences are associated with beneficial effects with regard to whole-body glucose turnover rate of gluconeogenesis and protein sparing, we conducted two studies using animal models and two clinical studies. METHODS. For the determination of glucose and protein turnover, radioactive and stable isotope techniques were applied. In an animal model a primed constant infusion of 3-H-6-glucose, 14-C-1-alanine and 13-C-3-alanine and 14-C-U-acetate was used to determine total glucose appearance, gluconeogenesis from 3-C-precursors and alanine flux. In the human studies hepatic glucose production was determined by using a primed constant infusion of 6.6-D-2-glucose and urea synthesis rate was determined by a primed constant infusion of 2-N-15-urea. RESULTS. In the first rat model we were able to show that hypocaloric xylitol compared to glucose significantly reduced whole-body glucose turnover from 1741 +/- 232 mumol/h during glucose infusion to 449 +/- 49 mumol/h during xylitol infusion and gluconeogenesis from C-3 carbons form 382 +/- 24 mumol/h during glucose infusion to 155 +/- 39 mumol/h during xylitol infusion after a burn trauma. In a second septic rat model the exchange of glucose calories by xylitol in a proportion of 1:1 was associated with a significantly ameliorated N-balance from +144 +/- 90 mgN/kg body weight per day during glucose infusion to +699 +/- 80 mgN/kg body weight per day during glucose-xylitol infusion and a reduced 3-methyl-histidine excretion from 7.14 +/- 0.61 mumol/kg body wt. per day during glucose infusion to 4.10 +/- 0.56 mumol/kg per day during glucose-xylitol infusion, respectively. In two studies with surgical intensive care patients we were able to confirm the nitrogen-sparing properties of xylitol infusion, together with amino acids during hypocaloric feeding or during TPN with a glucose/xylitol mixture in a proportion of 1:1. From a basal urea production rate of 9.2 +/- 1.6 mumol/kg min. xylitol led to a significant reduction with 6.4 +/- 1.5 mumol/kg per min. Hepatic glucose production was significantly reduced during xylitol infusion from basal 4.8 +/- 0.6 mg/kg per min to 3.1 +/- 0.7 mg/kg per min, respectively. Equicaloric glucose in a dosage of 3 g/kg per day had no effect. During TPN glucose/xylitol, in a proportion of 1:1 at a total dosage of 0.24 g/kg per h, significantly reduced whole-body glucose turnover, endogenous glucose production and lactate concentrations compared to an isocaloric glucose infusion. DISCUSSION. In animal as well as in human studies hypocaloric xylitol as well as a glucose-xylitol mixture were more efficient in preserving body protein than glucose alone. Whole-body glucose turnover was significantly reduced during hypocaloric xylitol or glucose-xylitol infusion compared to isocaloric glucose infusion. During the acute phase after trauma we therefore recommend a carbohydrate supplementation of 3 g/kg body wt. per day using xylitol. During long-term TPN, a glucose-xylitol mixture in a proportion of 1:1 in a dosage of 3 g/kg body wt. per day each is recommended as energy source, together with amino acids and, if necessary, lipids.
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PMID:[The mechanism of the reduction of protein catabolism following trauma and during sepsis using xylitol]. 190 89

Previous studies have shown that thrombomodulin (TM) on endothelial cells is down-regulated by endotoxin, interleukin-1 beta (IL-1 beta), and tumor necrosis factor (TNF). This loss of anti-coagulant potential is thought to be related to the hypercoagulable state in sepsis, inflammation, and cancer. The current studies describe up-regulation of TM in human umbilical vein endothelial cells (HUVECs) by several compounds as judged by increased surface cofactor activity, surface TM antigen, and TM mRNA levels. Surface TM activity was increased by active phorbol esters (10(-8) M, 24-48 h), analogs of cAMP (1-10 mM, 4 h), and forskolin (10(-5) M, 24-48 h). Up-regulation of TM in HUVECs by 4 beta-phorbol 12-myristate 13-acetate (PMA) and dibutyryl cAMP (dBcAMP) was due to de novo synthesis of TM protein resulting from increased TM mRNA levels. The results suggest that protein kinase C and protein kinase A may be involved in cellular regulatory mechanisms for TM expression. In addition, PMA effects on surface TM activity are biphasic, with an initial reduction followed by a significant enhancement. Hence, we propose that compounds capable of increasing intracellular cAMP concentrations in HUVECs may be useful in preventing thrombosis by increasing the anti-thrombotic properties of endothelial cells.
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PMID:Up-regulation of thrombomodulin in human umbilical vein endothelial cells in vitro. 196 58

Sepsis syndrome frequently results in endothelial injury in many organ systems. To evaluate neutrophil-pulmonary endothelial cell interaction in the sepsis syndrome, we studied 39 critically ill patients prospectively and 20 normal volunteers. Thirteen patients with sepsis (mean age, 71.4 years), 14 patients in an intensive care unit control group (mean age 65.4 years), and 12 patients admitted with acute myocardial infarction (mean age, 66.8 years) were evaluated. Blood samples were drawn from septic patients within 24 hours and from ICU and MI patients within 72 hours of admission. All sepsis patients were culture positive, 6 of 13 from the blood. Both renal failure and ARDS developed in 54 percent of septic patients. 51Cr-labelled neutrophils were prepared and added to bovine pulmonary endothelial cell monolayers with and without added phorbol myristate acetate. Endothelial cells with adherent PMA and nonadherent PMN's, were harvested and radioactivity in each fraction measured with a gamma scintillation counter. Baseline and maximally stimulated (PMA, 3.0 ng/ml) neutrophil adherence to endothelial cells were similar in all patients groups. However, in septic patients, PMA-stimulated PMN adherence was reduced at lower doses, most significantly in those who developed ARDS within 24 to 48 hours of admission (p less than 0.05). Seventy-one percent of patients who developed ARDS had reduced stimulated adherence (PMA 1.0 ng/ml) compared to 22 percent of critically ill patients who did not. We conclude that diminished adherence of neutrophils to endothelium in response to low-level PMA stimulation is significantly more common in patients with sepsis who develop ARDS. Our findings suggest that PMN-endothelial cell interaction is altered by the time sepsis is clinically recognized but before the development of ARDS. We speculate that the observed reduction in adherence of the PMN to endothelial cells may be a consequence of down-regulation by mediators generated in the inflammatory response to sepsis and/or the need for active participation of septic endothelium in this interaction.
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PMID:Neutrophil-endothelial cell interaction in critical illness. 203 31

It is likely that dynamic interactions between hepatocytes and Kupffer cells contribute to the responses of these cell types both under normal conditions and during sepsis. In this study, we examined the influences of hepatocytes on the concentration of the inflammatory mediator PGE2 in Kupffer cell cultures. Evidence to suggest that cultured rat hepatocytes both metabolize PGE2 and produce a substance that promotes LPS-stimulated Kupffer cell PGE2 biosynthesis include the following: 1) PGE2 levels in Kupffer cell: hepatocyte coculture were lower than the levels in Kupffer cell cultures early after LPS stimulation; 2) 36 h after LPS, coculture PGE2 levels exceeded the levels in Kupffer cell cultures despite the demonstrated capacity for hepatocytes to metabolize PGE2; 3) a transferable, non-dialyzable, and heat-unstable factor in hepatocyte supernatant promoted PGE2 production when added to Kupffer cells with LPS or after LPS; 4) there was no increased PGE2 synthesis when the hepatocyte supernatant was added without LPS or if hepatocyte supernatant was preincubated with the Kupffer cells for 6 or 18 h before LPS administration; 5) there was an inability of the hepatocyte factor to promote PGE2 production in response to other macrophage-activating agents, including calcium ionophore A23187 or phorphol myristate acetate; and 6) there was no increased cell replication or protein synthesis in the Kupffer cell cultures following hepatocyte supernatant incubation. The increased Kupffer cell PGE2 production by the hepatocyte supernatant was not due to contamination of the hepatocyte supernatant by endotoxin or PGE2. These in vitro results raise the possibility that hepatocytes have the capacity to modulate local PGE2 levels by two distinct mechanisms. Hepatocytes can metabolize PGE2 as well as release factor(s) which promote LPS-induced PGE2 production by Kupffer cells.
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PMID:Hepatocyte modulation of Kupffer cell prostaglandin E2 production in vitro. 210 27

A total of 41 Neissera meningitidis isolates were analyzed for capsular polysaccharide (CP) and lipopolysaccharide (LPS) release and filtrability. Twenty-two of these isolates were serogroup B from blood or cerebrospinal fluid of patients, five were group B isolates from healthy throat carriers, and 14 were nongroupable (acapsular) meningococcal isolates from healthy carriers. Filtration of liquid whole-cell cultures through cellulose acetate-nitrate filters resulted in distinctly lower LPS filtrate activity for acapsular than for capsular meningococci (p less than 0.001). On the other hand, when polysulfone membrane filtration was performed, filtrates from acapsular and capsular meningococci contained LPS in similar amounts. These results indicate that LPS-containing particles released from acapsular isolates are larger or more aggregated than corresponding CP- and LPS-containing particles released from capsular isolates. The LPS released from acapsular isolates apparently are more efficiently retained by adsorption to cellulose acetate-nitrate. From the capsular isolates comparatively more CP than LPS appeared to be released, as related to cell-bound amounts. The total amounts of CP and released, filtrable LPS through cellulose acetate-nitrate filters were both relatively low and had similar values for capsular carrier meningococci and systemic isolates from mild meningococcal disease. The amount of CP released and passing this type of membrane was significantly higher for systemic isolates from severe septicemia than from mild meningococcal disease (p = 0.03).
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PMID:Neisseria meningitidis group B capsular polysaccharide. Bacterial content and release in relation to categories of infection and filtrability of released endotoxin. 211 12


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