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)

1. The hepatic metabolism of glutamine, alanine, ammonia, urea, glutathione and glucose was studied in rats made septic by caecal ligation and puncture and was compared with that in rats that had undergone sham operation (laparotomy). 2. Sepsis resulted in increases in the plasma activities of gamma-glutamyltransferase (P less than 0.001), alanine aminotransferase (P less than 0.001) and aspartate aminotransferase (P less than 0.001), the serum total and direct bilirubin concentrations (P less than 0.001), and the blood lactate (P less than 0.01), glutamine (P less than 0.05), alanine (P less than 0.001) and urea (P less than 0.05) concentrations, but produced decreases in the blood ketone body (P less than 0.001) and glutathione (P less than 0.05) concentrations and in the plasma cholesterol concentration (P less than 0.05). These changes were associated with marked negative nitrogen balance in septic rats. 3. Sepsis increased total hepatic blood flow (by 22.7%) together with hepatic arterial flow (by 25.8%) and portal venous flow (by 18.7%). Sepsis resulted in marked increases in the net rates of hepatic extraction of glutamine (by 164%), alanine (by 138%) and ammonia (by 259%) with concomitant increases in the net rates of hepatic release of glutamate (by 105%), glutathione (by 87.5%), glucose (by 70.1%) and urea (by 100.4%). 4. Sepsis increased the activities of liver carbamoylphosphate synthase (by 16.4%), ornithine transcarbamylase (by 29.8%), argininosuccinate synthase (by 28.1%) and arginase (by 33.8%). 5. Septic rats exhibited marked increases in hepatic protein (by 46.0%), RNA (by 43.4%) and DNA (by 37.7%) contents. These changes were accompanied by marked increases in the activity of thymidine kinase (by 35.9%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatic glutamine metabolism in the septic rat. 137 98

Within less than 14 months of recruitment 32 centers enrolled 97 patients in a multicenter trial for low-dose treatment of hairy cell leukemia (1.2 X 10(6) IU/m2 X 28 days s.c. with dose reduction according to clinically judged improvement) or ultra-low dose treatment (1.2 X 10(5) IU/m2, s.c. daily increasing to a well-tolerated dose) with Hr IFn-2c (arg). Induction therapy was limited to 84 days. Patients who reached the clinical stage Jansen I or A were then randomized to 2 arms either to receive further IFn (1.2 X 10(6) IU/m2 s.c.) twice a week or to be taken off treatment. For both arms induction therapy was reinstituted whenever a patient lost the criteria of Jansen stage A or I. The study included obligatory central diagnostic procedures and several special investigations. During the first year of the study a special problem evolved in the group of 34 patients with recurrent disease after splenectomy. Ten of them died, 9 of septicemia and 1 of bleeding complications, whereas only 1 death occurred in those patients who received IFn before splenectomy. The risk factors and the response to therapy in the two groups will be analyzed in order to define the criteria that will be needed for the proper choice of primary treatment for HCL. It appears important to us to restrict splenectomy to selected patients.
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PMID:[Primary treatment of hairy cell leukemia with low-dose human recombinant interferon-alpha-2c (Hr-IFn alpha 2c) in comparison with therapy following splenectomy. Interferon (IFn-alpha 2c) in HCL before or after splenectomy]. 329 25

In vitro and in vivo studies have suggested that human complement component C5a plays a key role in neutrophil injury in the adult respiratory distress syndrome (ARDS). First, using leukocyte aggregometry, we demonstrated that the addition of a recently developed rabbit anti-human polyclonal antibody to C5a des arg to endotoxin-activated plasma prevented leukocyte aggregation in vitro. We then administered the anti-C5a des arg antibody to septic primates (Macaca fascicularis). Three groups of primates, control, septic, and anti-C5a antibody treated septic, were studied (n = 4 in each group). A 30-min infusion of Escherichia coli (1 X 10(10)/kg) resulted in severe sepsis and ARDS. Primates were killed 4 h after completion of the E. coli infusion. Septic animals not treated with anti-C5a antibody had 75% mortality (3/4), decreased oxygenation, severe pulmonary edema, and profound hypotension. Septic primates treated with anti-C5a antibodies did not die and did not develop decreased oxygenation (P less than 0.05) or increased extravascular lung water (P less than 0.05). They also had a marked recovery in their mean arterial blood pressure (P less than 0.05). This study demonstrates that treatment with rabbit anti-human C5a des arg antibodies attenuates ARDS and some of the systemic manifestations of sepsis in nonhuman primates.
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PMID:Effects of anti-C5a antibodies on the adult respiratory distress syndrome in septic primates. 371 36

In 10 patients with polytrauma and 2 patients with sepsis a relation of the severity of trauma and the change of lipoproteins has been found. Cholesterol and triglycerides as well as apolipoproteins A-I and B decrease significantly in the first days after the injury. During the following rise of cholesterol and triglycerides apolipoprotein A-I increases also to a concentration of lower normal range; apolipoprotein B remains lowered. Apolipoprotein C-III2 is determined in 3 patients and is increased. The concentration of apolipoprotein A-I decreases in three of five patients, who had parenteral fat administration. Apolipoprotein B increases during fat administration. The following fat free parenteral nutrition causes a decrease of apolipoprotein B again. The composition of lipoproteins is similarly changed in 2 patients with sepsis. The apolipoproteins as well as the lipids decrease more in patients who died later than in the case of reconvalescence, in which the increase of concentrations of lipids and apolipoprotein B may be accelerated with parenteral nutrition. Apolipoprotein A-I reacts variably, A-II is lowered.
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PMID:[Serum apolipoproteins and lipids in severe injury as influenced by nutrition. A pilot study]. 681 33

Alterations in neutrophil subpopulations during human hemodialysis or following injection of C5a des arg into rabbits were studied. Whereas baseline peripheral blood neutrophils contained approximately 80% of cells that formed rosettes with IgG-sensitized erythrocytes, neutrophils harvested at the granulocyte nadir (20 min after initiating hemodialysis or the injection of C5a des arg) were markedly depleted of this population. This was seen in a change in ratio of rosette-forming neutrophils (RFN) to non-rosette-forming neutrophils (non-RFN) from 4:1 at 0 time to 1:2 at 20 min. Since non-RFN are less active in assays of adherence and chemotaxis, these alterations in circulating neutrophil populations were reflected in abnormal functional capacity of neutrophils harvested at 20 min. To study the mechanism of RFN depletion, we investigated the ability of C5a des arg to aggregate various human neutrophil suspensions. Unfractionated neutrophils and RFN demonstrated prompt in vitro aggregation in response to C5a des arg, whereas this activated complement fragment induced little aggregation in a population enriched for non-RFN. These results may explain the alterations in neutrophil adherence, chemotaxis, phagocytosis, and bactericidal activity, which have been reported to accompany clinical disorders characterized by in vivo complement activation (i.e., hemodialysis or gram-negative sepsis).
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PMID:The effect of hemodialysis and C5a des arg on neutrophil subpopulations. 736 69

Arginine and ornithine are precursors of nitric oxide and polyamines, respectively. These metabolites intimately participate in permeability and adaptive responses of the gut. The liver possesses high arginase activity as an intrinsic part of urea synthesis and would consume most of the portal supply of dietary arginine. The gut reduces this possibility by converting dietary arginine to citrulline, which effectively bypass the liver and is resynthesized to arginine in the kidney. Dietary ornithine supplementation, in the form of ornithine alpha-ketoglutarate (OKG) can be considered as an arginine precursor. Several supplement studies have shown both amino acids to promote growth hormone and insulin secretion with anabolic effects in postoperative patients. Their intermediary metabolites (for example, glutamine, proline) may also be of benefit in trauma metabolism. Specific effects of either amino acid on the gut are poorly reported. One recent animal study showed improved morphology after OKG administration, perhaps through increased polyamine secretion. Generation of nitric oxide from arginine has two facets. Excess production from high dose arginine potentiated the effects of experimentally induced sepsis, whereas low doses improved survival. These considerations suggest that the role of enteral diet supplementation with arginine or OKG should be urgently examined for any benefits it may have on mucosal barrier function.
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PMID:Can arginine and ornithine support gut functions? 812 89

The primary metabolic fates of L-arginine are conversion to L-citrulline by nitric oxide synthase (NOS) and to L-ornithine by arginase. In the lung, arginine utilization is increased after the inducible form of NOS (iNOS) is expressed during inflammation. The expression of arginase in normal lung and after sepsis, and its potential relationships with iNOS, however, are not known. Since arginase and iNOS share the substrate L-arginine, we tested the hypothesis that lung arginase would be co-induced with iNOS in sepsis and its cellular distribution would be related to that of iNOS in the lung. Lungs from cecal ligation and puncture (CLP) and sham-operated (S) rats were harvested 6 or 16 hours after the procedures. Lung wet-to-dry weight ratio, myeloperoxidase content, and lipid peroxidation products were measured as indices of lung injury. Western blot analyses were performed with polyclonal antibodies against two isoforms of rat arginase (I and II) and iNOS. Additional lungs from CLP and S animals were inflation-fixed for immunohistochemistry using the same antibodies. We found by Western blot that arginase II at 39 kDa was the main isoform present in normal rat lung. The enzyme was distributed diffusely in alveolar and bronchial epithelial cells, endothelial cells, and alveolar macrophages. After CLP, arginase II was almost undetectable in rat lungs at 16 hours. In contrast, in normal lung, the iNOS was not detectable by Western blot or immunohistochemistry. After CLP, strong expression of iNOS was found in similar cell types to arginase II. These data demonstrate loss of constitutive expression of arginase II in rat lung as iNOS is upregulated by the response to sepsis.
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PMID:Differential expression of arginase and iNOS in the lung in sepsis. 963 49

L-Arg plays a central role in the normal function of several organ systems including the immune system. L-Arg can be depleted by arginase I produced by macrophages and hepatocytes in several disease states such as trauma and sepsis and following liver transplantation. The decrease in L-Arg levels induces a profound decrease in T cell function through mechanisms that have remained unclear. The data presented here demonstrate that Jurkat T cells cultured in medium without L-Arg (L-Arg-free RPMI) have a rapid decrease in the expression of the T cell antigen receptor zeta chain (CD3zeta), the principal signal transduction element in this receptor, and a decrease in T cell proliferation. This phenomenon is completely reversed by the replenishment of L-Arg but not other amino acids. These changes are not caused by cell apoptosis; instead, the diminished expression of CD3zeta protein is paralleled by a decrease in CD3zeta mRNA. This change in CD3zeta mRNA expression is not caused by a decrease in the transcription rate but rather by a significantly shorter CD3zeta mRNA half-life. This mechanism is sensitive to cycloheximide. Therefore, the regulation of L-Arg concentration in the microenvironment could represent an important mechanism to modulate the expression of CD3zeta and the T cell receptor and consequently of T cell function.
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PMID:Regulation of T cell receptor CD3zeta chain expression by L-arginine. 1195 Aug 32

Sepsis is a systemic response to an infection, with high morbidity and mortality rates. Metabolic changes during infection and sepsis could be related to changes in metabolism of the amino acid L-arginine. In sepsis, protein breakdown is increased, which is a key process to maintain arginine delivery because both endogenous de novo arginine production from citrulline and food intake are reduced. Arginine catabolism, on the other hand, is markedly increased by enhanced use of arginine via the arginase and nitric oxide pathways. As a result, lowered plasma arginine levels are usually found. Arginine may therefore be considered as an essential amino acid in sepsis, and supplementation could be beneficial in sepsis by improving microcirculation and protein anabolism. L-Arginine supplementation in a hyperdynamic pig model of sepsis prohibits the increase in pulmonary arterial blood pressure, improves muscle and liver protein metabolism, and restores the intestinal motility pattern. Arguments raised against arginine supplementation are mainly pointed at stimulating nitric oxide (NO) production, with concerns about toxicity of increased NO and hemodynamic instability with refractory hypotension. NO synthase inhibition, however, increased mortality. Arginine supplementation in septic patients has transient effects on hemodynamics when supplied as a bolus but seems without hemodynamic side effects when supplied continuously. In conclusion, arginine could have an essential role in infection and sepsis.
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PMID:The role of arginine in infection and sepsis. 1570 48

Dyslipidemia seen in the critically ill patient is a common disturbance, poorly recognized by physicians in this setting. Shock states, sepsis, multifactorial systemic inflammatory response syndrome and ischemia-reperfusion injury are associated with important metabolic changes that contribute to this disturbance. As a result, the lipid concentration, including cholesterol, high-density lipoproteins and apo-lipoprotein A-I, diminishes. Previous reports correlate the disturbance in lipids with a higher risk of infection, systemic inflammatory response syndrome, multiple organic dysfunction syndrome, and raised mortality. The use of reconstituted high-density lipoprotein may be a therapeutic alternative for the management of this entity.
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PMID:[Dyslipidemia in the critically ill patient]. 1633 7

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