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)

Branched chain amino acids (BCAAs) and glutamine are both recommended in catabolic states. The object of this study was to compare the efficacies of alanylglutamine (Ala-Gln)-enriched and BCAA-enriched total parenteral nutrition (TPN) on the protein kinetics in peritonitis. Rats were divided into Ala-Gln and BCAA groups after intraperitoneal implantation of an osmotic pump, delivering a continuous infusion of Escherichia coli. Glutamine composed 30.0% (w/v) of the total amino acids in the Ala-Gln group, and BCAA composed 30.5% (w/v) of the total amino acids in the BCAA group. The two solutions were isocaloric and isonitrogenous. Whole body protein turnover and organ fractional protein synthetic rates (FSR) were measured on days 3 and 5. Serum amino acid levels and mucosal morphology were determined. Ala-Gln group had higher rates of whole body protein turnover, and hepatic FSR on both days. Serum glutamine levels correlated with hepatic and muscle FSR. Ala-Gln TPN group had greater mucosal thickness, numbers of mitoses per crypt, and FSR in distal intestine. Ala-Gln-enriched TPN may be a useful nutritional treatment modality in sepsis.
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PMID:Alanylglutamine-enriched total parenteral nutrition improves protein metabolism more than branched chain amino acid-enriched total parenteral nutrition in protracted peritonitis. 904 98

Transposon (TnphoA) mutagenesis was used to study the expression of F165(1) fimbriae, related to Prs fimbriae, in the pathogenic Escherichia coli strain 5131 (O115:K "V165":F165). This strain causes septicemia in swine and also expresses F165(2) fimbriae, related to F1C. Adhesin-defective mutants from the wild-type pathogenic strain were produced and TnphoA insertions were localized either in the f165(1)A gene, which encodes the major fimbrial subunit or in the f165(1)E, gene, which encodes a minor fimbrial subunit. TnphoA gene fusions were used to measure expression of F165(1) fimbrial genes. Similar pattern of regulation of expression was observed in both f165(1)A and f165(1)E genes. Optimal expression of F165(1) fimbriae was obtained on solid minimal medium. Production of F165(1) fimbriae was negatively regulated by addition of glucose, leucine or alanine to the media, by growth at 18 degrees C, and by pH above or below 7.0.
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PMID:Mutations in the f165(1)A and f165(1)E fimbrial genes and regulation of their expression in an Escherichia coli strain causing septicemia in pigs. 914 Sep 21

The development of the multiorgan dysfunction syndrome, directly determining the severity of the septic process, is characterized by not only inverse ratio of the energy and plastic material, but by metabolic changes which are still unclear and cannot yet be explained. Our purpose was to detect some features of amino acid metabolism in patients with grave sepsis and septic shock. The concentrations of plasma free amino acids were measured on days 1, 3, and 5 in 37 patients with grave sepsis and septic shock. The diagnosis of grave sepsis, septic shock, and organ dysfunction was made proceeding from the criteria defined by R. Bone. The study revealed reliably increased (p < 0.05) levels of arginine, proline, alanine, and the arginine-ornithine index reflecting the direction of arginine transformation in patients with septic shock and grave organ dysfunction (for at least 3 systems). This may be explained by active degradation of endogenous proteins of skeletal muscles, which is characteristic of septic hypermetabolism. Strong correlations were revealed between arginine level and the APACHE-II score (r = 0.57), proline and the same score (r = 0.51), mean arterial pressure and the arginine-ornithine index (r = -0.72), APACHE-II score and the arginine-ornithine index (r = 0.79), arterial lactate and the arginine-ornithine index (r = 0.64). Hence, amino acid metabolism apparently mediates the effects of septic cascade mediators on the following cell.
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PMID:[Characteristics of amino acid metabolism in patients with severe sepsis and septic shock]. 917 19

The purpose of this study was to evaluate the feasibility of developing multivariate equations that predicted blood pressure and measured levels of end-organ function indicators quantitatively up to 72 h in advance in critically ill patients with severe sepsis. Data collected prospectively from 59 patients entered into two sequential placebo-controlled clinical trials of recombinant interleukin-1 receptor antagonist in severe sepsis and septic shock was analyzed retrospectively. A series of multivariate equations were developed to predict systemic pressure, coagulation, and vital organ function indicators quantitatively at 24, 48, and 72 h after the onset of severe sepsis. These equations used physiologic and clinical laboratory measurements, plus circulating levels of eicosanoids and cytokines obtained when severe sepsis criteria first were met, and end-organ function indicators measured 24, 48, and 72 h later. Multivariate predictive equations were developed for temperature, white blood cell count, mean arterial pressure (MAP), Pao2/FiO2 ratio, the Murray acute lung injury score, alanine and aspartate aminotransferases, prothrombin time, partial thromboplastin time, platelet count, serum creatinine, and Glasgow Coma Scale. The percentage of data variation explained by the equations ranged from 11.4% (MAP at 48 h) to 85.1% (platelet count at 24 h). Linear regression analysis of predicted values, obtained by entering baseline data from individual patients into the multivariate equations, versus observed results at 24, 48, and 72 h yielded regression coefficients ranging from .371 (MAP at 48 h) to .924 (platelet count at 24 h). Among patients without end-organ dysfunction at baseline, sensitivities for predicting values consistent with the onset of organ failure were > or = 88% in 21/27 (78%) of the predictive equations. Resolution of organ failure indicators present at baseline was predicted successfully in individual patients, with 20/27 (74%) specificities > or = 76%. In critically ill patients with severe sepsis, multivariate analysis of interactions among clinical observations, standard laboratory tests, and inflammatory response mediators produced equations that predicted systemic blood pressure and inflammatory and end-organ function indicators quantitatively up to 72 h in advance. Whether or not this methodology might be developed further to predict subclinically the onset and resolution of acute organ failure and shock in critically ill patients, and if it can be validated in a prospective trial will require further studies.
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PMID:Multivariate regression modeling for the prediction of inflammation, systemic pressure, and end-organ function in severe sepsis. 937 72

Monocytes (MO) and macrophages (MAC) are important producers of cytokines involved in the pathophysiology of bacterial sepsis. Most studies concentrate on the effects of bacterial lipopolysaccharides (LPS) regarding the induction of cytokine gene expression and secretion in MO/MAC. Here we report that besides LPS, the synthetic lipoprotein analogue lipopeptide N-palmitoyl-S-(2,3-bis(palmitoyl)-(2RS)-propyl)-(R)-cysteinyl-alanyl- glycine (Pam3-Cys-Ala-Gly), another component of the outer membrane of Gram-negative bacteria, as well as heat-killed Staphyloccocus aureus (S. aureus/SAC) are potent stimuli for cytokines in human MO. For all three investigated stimuli we found an individual pattern of cytokine induction: LPS was most potent in inducing interleukin-6 (IL-6) synthesis, whereas for tumour necrosis factor-alpha (TNF-alpha) secretion SAC was the best stimulus. Comparable amounts of IL-8 were induced by either LPS or Pam3-Cys-Ala-Gly, with SAC being less effective even at higher concentrations. The addition of serum led to an increase in LPS-, SAC- and Pam3-Cys-Ala-Gly-stimulated TNF-alpha secretion, indicating that the presence of serum is critical not just for LPS stimulation. Furthermore, as is known for LPS, Pam3-Cys-Ala-Gly and SAC rendered MO refractory to a second bacterial stimulus. Pam3-Cys-Ala-Gly and SAC induced tolerance for itself, but LPS could partially overcome this effect. As the CD14 molecule is discussed as a common receptor for different bacterial components, we investigated whether the TNF-alpha response of MO could be blocked by anti-CD14 antibodies. MY4, a CD14 antibody, selectively blocked the TNF-alpha secretion induced by LPS but not by Pam3-Cys-Ala-Gly or SAC. In summary, we conclude that besides LPS, lipopeptide Pam3-Cys-Ala-Gly and SAC are potent stimuli for human MO, while the mechanisms of activation seem to be partially different from LPS.
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PMID:A comparative analysis of cytokine production and tolerance induction by bacterial lipopeptides, lipopolysaccharides and Staphyloccous aureus in human monocytes. 948 14

Growth hormone (GH) and insulin-like growth factor-1 (IGF-1) may be beneficial against the protein catabolism seen in injury and septicemia. Further understanding of their effects on carbohydrate metabolism is needed. In a septic porcine model receiving total parenteral nutrition, pretreatment with GH or IGF-1 (or no treatment in controls) was followed by an infusion of live Escherichia coli bacteria. Endogenous glucose production, carbohydrate oxidation, glucose and lactate fluxes over the liver, gastrointestinal organs, kidney, and hindleg were determined. Endogenous glucose production increased during septicemia in the GH group. The metabolic acidosis induced by septicemia was augmented by GH, but attenuated by IGF-1. The alanine and lactate levels were significantly higher in the GH- than in the IGF-1 treated animals during septicemia. IGF-1 pretreatment appeared to induce favorable effects while GH pretreatment might produce unfavorable effects on carbohydrate metabolism in septic piglets.
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PMID:Treatment with growth hormone and insulin-like growth factor-1 in septicemia: effects on carbohydrate metabolism. 956 41

The intestinal hypomotility associated with purulent peritonitis is generally regarded as a contraindication to enteral nutrition. However, enteral nutrition may be feasible in suppurative peritonitis if administered with great caution, i.e., assuring the appropriate amount, delivery speed, and osmolality of the enteral formulation. Glutamine (Gln) increases muscle protein synthesis and decreases muscle protein degradation in sepsis, regardless of the route of administration. Therefore, administering small amounts of supplemental Gln via the enteral route to peritonitis patients may be beneficial. Two purulent peritonitis patients received L-Gln through a jejunostomy tube. The average amount of supplemental Gln was 16 g/d. Systemic inflammatory responses, i.e., high temperature and a high serum C-reactive protein level, persisted throughout the treatment period. Femoral arterial and venous blood samples were drawn simultaneously for determination of amino acid levels before and after 7 d of Gln supplementation. Enterally administered Gln was well-tolerated by both patients. There was an increase in plasma Gln levels after Gln supplementation. Moreover, the release of Gln, alanine, and phenylalanine from the lower extremities was lower after as compared to before Gln supplementation. Enteral administration of Gln may be feasible even in purulent peritonitis.
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PMID:Enteral administration of glutamine in purulent peritonitis. 991 59

Glutamine is considered to be a 'conditionally' essential amino acid. During situations of severe stress like sepsis or after trauma there is a fall in plasma glutamine levels, enhanced glutamine turnover and intracellular muscle glutamine depletion. Under these conditions, decreased intramuscular glutamine concentration correlates with reduced rates of protein synthesis. It has therefore been hypothesized that intracellular muscle glutamine levels have a regulatory role in muscle protein turnover rates. Administration of the glutamine synthetase inhibitor methionine sulphoximine (MSO) was used to decrease glutamine levels in male Wistar rats. Immediately after the MSO treatment (t=0 h), and at t=6 h and t=12 h, rats received intraperitoneal injections (10 ml/100 g body weight) with glutamine (200 mM) to test whether this attenuated the fall in plasma and intracellular muscle glutamine. Control animals received alanine and saline after MSO treatment, while saline was also given to a group of normal rats. At t=18 h rats received a primed constant infusion of L-[2,6-3H]phenylalanine. A three-pool compartment tracer model was used to measure whole-body protein turnover and muscle protein kinetics. Administration of MSO resulted in a 40% decrease in plasma glutamine and a 60% decrease in intracellular muscle glutamine, both of which were successfully attenuated by glutamine infusions. The decreased intracellular muscle glutamine levels had no effect on whole-body protein turnover or muscle protein kinetics. Also, glutamine supplementation did not alter these parameters. Alanine supplementation increased both hindquarter protein synthesis and breakdown but the net balance of phenylalanine remained unchanged. In conclusion, our results show that decreased plasma and muscle glutamine levels have no effect on whole-body protein turnover or muscle protein kinetics. Therefore, it is unlikely that, in vivo, the intracellular muscle concentration of glutamine is a major regulating factor in muscle protein kinetics.
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PMID:Effects in vivo of decreased plasma and intracellular muscle glutamine concentration on whole-body and hindquarter protein kinetics in rats. 1033 70

Sepsis induces extensive lymphocyte apoptosis, a process which may be beneficial to host survival by down-regulating the inflammatory response or, alternatively, harmful by impairing host defenses. To determine the beneficial vs. adverse effects of lymphocyte apoptosis in sepsis, we blocked lymphocyte apoptosis either by N-benzyloxycarbonyl-Val-Ala-Asp(O-methyl) fluoromethyl ketone (z-VAD), a broad-spectrum caspase inhibitor, or by use of Bcl-2 Ig transgenic mice that selectively overexpress the antiapoptotic protein Bcl-2 in a lymphoid pattern. Both z-VAD and Bcl-2 prevented lymphocyte apoptosis and resulted in a marked improvement in survival. z-VAD did not decrease lymphocyte tumor necrosis factor-alpha production. Considered together, these two studies employing different methods of blocking lymphocyte apoptosis provide compelling evidence that immunodepression resulting from the loss of lymphocytes is a central pathogenic event in sepsis, and they challenge the current paradigm that regards sepsis as a disorder resulting from an uncontrolled inflammatory response. Caspase inhibitors may represent a treatment strategy in this highly lethal disorder.
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PMID:Prevention of lymphocyte cell death in sepsis improves survival in mice. 1058 41

Increased concentrations of procalcitonin (PCT) are found in the plasma of patients with thermal injury and in patients with sepsis and severe infection, making this molecule important as a diagnostic and prognostic marker in these diseases. Interestingly, only the truncated form of PCT, PCT(3-116), is present in the plasma of these patients. The enzyme responsible for this truncation is unknown as yet. Here, using capillary zone electrophoresis, mass spectrometry and Edman sequence analysis, we demonstrate that dipeptidyl peptidase IV (DP IV, EC 3.4.14.5) is capable of catalyzing the hydrolysis of PCT(1-116), releasing the N-terminal dipeptide Ala-Pro. We hypothesize that PCT(3-116) is the result of the hydrolysis of PCT(1-116) by soluble DP IV of the blood plasma or by DP IV expressed on the surface of cells.
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PMID:Amino-terminal truncation of procalcitonin, a marker for systemic bacterial infections, by dipeptidyl peptidase IV (DP IV). 1064 32

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