Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Hemostatic profile was studied in 25 full term, non-asphyxiated neonates with blood culture-proven septicemia. Nine (36%) of these neonates manifested bleeding. Detailed coagulation tests and platelet studies were deranged in 24 (96%) of neonates with septicemia. Abnormalities in coagulation tests did not differ in those with and without bleeding. Only platelet aggregation with ADP was deranged to a significantly greater extent in those with bleeding as compared with those without bleeding.
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PMID:Hemostatic profile in septicemic neonates with and without bleeding. 145 56

Recent investigations from our and other laboratories indicate that glycogen is a carbon-chain precursor in muscle for the synthesis of TCA cycle intermediates and glutamine. During intense exercise and in conditions of a relative lack of energy (hypoxia, trauma, sepsis) the metabolism of branched-chain amino acids (BCAA) is accelerated in muscle. In the primary BCAA aminotransferase reaction 2-oxoglutarate is used as amino-group acceptor (putting a carbon-drain on the TCA cycle) under formation of glutamate. Glutamate will subsequently react with ammonia, generated in the AMP deaminase reaction or by deamination of amino acids, under formation of glutamine in a reaction catalysed by glutamine synthetase (glutamate + ammonia + ATP--> glutamine + ADP). Muscle glycogen stores may be smaller or less available at high altitude. It is hypothesized that this will lead to premature fatigue (due to both a lack of fuel and of TCA cycle carbon-precursor) and to a reduction in the synthesis rate of glutamine. A chronic reduction in the synthesis rate of glutamine during a long term stay at high altitude on its turn may lead to gut atrophy, bacterial translocation, endotoxemia, muscle protein catabolism and a weakened immune status.
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PMID:Amino acid metabolism, muscular fatigue and muscle wasting. Speculations on adaptations at high altitude. 148 45

In the conclusion of this series of reports, the application of 31P/2H NMR to investigate the pathophysiology of sepsis in rat hindlimb muscle is demonstrated. Sepsis decreased muscle [PCr] by 18%, 18 +/- 4 SD vs 22 +/- 4 SD mmol/kg tissue wet wt (P = 0.01) in control rats but [ATP] was unchanged, 6 mmol/kg tissue wet wt (P = 0.2). The derived free cytosolic [ADP] in the two groups was similar, [ADP]septic = 0.023 +/- 0.004 SD and [ADP]control = 0.021 +/- 0.003 SD mmol/kg tissue wet wt, and not statistically different (P = 0.14). Likewise [Pi] in the septic and control groups was not statistically different, [Pi]septic = 1.1 +/- 0.5 SD and [Pi]control = 1.2 +/- 0.4 SD mmol/kg tissue wet wt (P = 0.2). Septic rats presented the symptom of respiratory alkalosis evidenced by elevated blood pH. Sepsis decreased muscle blood flow by 33%, P = 0.003, but examination of individual subjects did not demonstrate a correlation with the reduction in [PCr]. Thus, a metabolic energy deficit caused by cellular ischemia/hypoxia is not a likely cause of cellular abnormality in rat hindlimb muscle during sepsis.
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PMID:Concurrent quantification of tissue metabolism and blood flow via 2H/31P NMR in vivo. III. Alterations of muscle blood flow and metabolism during sepsis. 159 58

Cecal ligation and puncture (CLP) were performed in rats. After 4 hr (early sepsis) and 16 hr (late sepsis), platelet morphology and function were studied. At 16 hr, platelet counts for the CLP group were significantly lower than for the sham-operated control group. Low maximum aggregation rates (MAR) and decreased platelet counts were elicited in platelet-rich plasma with 4 M ADP and 2 micrograms/ml collagen. However, with platelet counts equalized, MAR for the CLP group increased significantly, especially after 16 hr. The platelet-large cell rate and platelet distribution width decreased temporarily at 4 hr, then rose significantly at 16 hr. No significant changes were observed in the mean platelet volume after 4 hr, but there were significant increases after 16 hr. Total adenine nucleotide (TAN) levels within the platelets rose significantly in the CLP group, suggesting the appearance during the late sepsis of large, heavy platelets or adenine nucleotide-rich platelets. The platelet adenylate pool was divided into granular and cytoplasmic fractions, respectively characterized by ADP and ATP increases. However, no septicemia-related differences were noted in the degree of binding between goat antirat fibrinogen and platelet surface glycoprotein IIb/IIIa complex. Internal environment changes in the platelets indicated that during septicemia hyperfunctional or hypersensitive platelets with a latent capacity for active aggregation and release appeared in the circulation. Hypercoagulability in septicemia involves activation of coagulation factors, stimulation of the coagulation cascade, volume changes accompanying increased platelet TAN content, and changes in AN distribution in the two pools. These findings significantly increase our understanding of the transition from the prethrombotic state to thrombosis in septicemia.
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PMID:Platelet size and function in septic rats: changes in the adenylate pool. 217 92

Effects of urinary trypsin inhibitor (UTI) on the number, morphology and function of platelets under septic state were studied in rat models of cecal ligation and puncture (CLP). At formation of CLP, 5,000 U/kg/h of UTI was serially administered intraperitoneally and blood was sampled after 16 hours. Comparative study among sham-operation group, CLP group, and CLP + UTI group revealed: 1) inhibition of the platelets of platelet counts and appearance of large-sized, active platelets by UTI in the CLP + UTI group, 2) increase of platelet maximum aggregation rate (MAR) by ADP and increase of collagen in the CLP group, while inhibition in the CLP + UTI group and 3) by HPLC evaluation of adenine nucleotide in the platelet, increased levels of total ATP and ADP in the CLP group, particularly, increases of ATP in the metabolic pool and ADP in the granular pool. CLP + UTI group did not show these changes in the adenylate pool. UTI was thus considered to stabilize the platelet cycle in sepsis. Platelets under septic state might be hyperactive, and thrombosis is easy to occur. UTI administration might work for maintaining constancy of the platelet internal environment and improve septic state because adenine nucleotide level in the platelet did not change in the CLP + UTI group through changed in the CLP group.
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PMID:[Effects of the administration of urinary trypsin inhibitor on the morphology and function of platelets in the rat septic models]. 232 1

Serologically reactive O-polysaccharide from nine serotypes of Pseudomonas aeruginosa were covalently linked to toxin A via reductive amination, with adipic acid dihydrazide serving as a spacer molecule. The conjugates were composed of toxin A/O-polysaccharide ratios ranging from 1.17:1 to 3:1. All possessed an average Mr of greater than 10(6), were devoid of ADP ribosyltransferase activity associated with toxin A, and were nontoxic for mice and guinea pigs. The conjugates were stable from toxic reversion when stored at 37 degrees C for 28 days. The conjugation condition used preserved a substantial proportion of critical epitopes on the toxin A molecule as shown by the ability of toxin A-neutralizing monoclonal antibodies to react with the various conjugates. All nine conjugates were capable of evoking an antitoxin A and an antilipopolysaccharide immunoglobulin G (IgG) response in mice and rabbits. Rabbit antitoxin A IgG was capable of neutralizing the cytotoxic effect of toxin A, whereas mice immunized with any of the conjugates were protected against toxin A intoxication. Rabbit anti-conjugate IgG, when passively transferred to mice, was highly effective at preventing fatal P. aeruginosa burn wound sepsis.
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PMID:Vaccine potential of Pseudomonas aeruginosa O-polysaccharide-toxin A conjugates. 311 65

Chronic sepsis is always associated with profound wasting leading to increased release of amino acids from skeletal muscle. Net protein catabolism may be due to decreased rate of synthesis, increased rate of degradation, or both. To determine whether protein synthesis is altered in chronic sepsis, the rate of protein synthesis in vivo was estimated by measuring the incorporation of [3H]-phenylalanine in skeletal muscle protein in a chronic (5-day) septic rat model induced by creation of a stable intra-abdominal abscess using an E. coli + B. fragilis-infected sterile fecal-agar pellet as foreign body nidus. Septic rats failed to gain weight at rates similar to control animals, therefore control animals were weight matched to the septic animals. The skeletal muscle protein content in septic animals was significantly reduced relative to control animals (0.18 +/- 0.01 vs. 0.21 +/- 0.01 mg protein/gm wet wt; p less than 0.02). The rate of incorporation of [3H]-phenylalanine into skeletal muscle protein from control animals was 39 +/- 4 nmole/gm wet wt/hr or a fractional synthetic rate of 5.2 +/- 0.5%/day. In contrast to control animals, the fractional synthetic rate in septic animals (2.6 +/- 0.2%/day) was reduced by 50% compared to control animals (p less than 0.005). The decreased rate of protein synthesis in sepsis was not due to an energy deficit, as high-energy phosphates and ATP/ADP ratio were not altered. This decrease in protein synthesis occurred even though septic animals consumed as much food as control animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of skeletal muscle protein synthesis in septic intra-abdominal abscess. 339 97

The effect of chronic sepsis on the concentration of active pyruvate dehydrogenase complex has been investigated in liver and skeletal muscle of normal, sterile inflammatory, and chronic septic (small and large abscess) animals. Hyperdynamic sepsis was induced by the intraperitoneal introduction of a rat fecal-agar pellet of known size and bacterial composition (Escherichia coli + Bacteroides fragilis). Total pyruvate dehydrogenase complex activity was not altered in either liver or skeletal muscle in any of the conditions studied. In hepatic tissue, sterile inflammation increased the proportion of active complex 2.5-fold compared with control. The same increase in the concentration of active complex was observed in animals with a small abscess. When the abscess size was increased (large abscess), the concentration of active complex was decreased relative to sterile inflammatory or small abscess septic animals. In contrast to liver, sterile inflammation did not alter the proportion of active complex in skeletal muscle. Sepsis (either small or large septic abscess) resulted in threefold decrease in the concentration of active complex relative to control or sterile inflammatory animals. Changes in the concentration of active complex did not appear to be dependent on the ATP/ADP concentration ratio or tissue pyruvate levels but were consistent with changes in the acetyl-coenzyme A-to-coenzyme A concentration ratio. The mechanism responsible for altered concentration of active complex may be mediated through changes in the activity of the pyruvate dehydrogenase kinase, secondary to alterations in the effector concentration ratios.
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PMID:Effect of sepsis on activity of pyruvate dehydrogenase complex in skeletal muscle and liver. 352 10

The concept of early selective mitochondrial injury has been proposed to explain the global metabolic dysfunction observed in the septic state. A two phase study was undertaken to test the validity of this hypothesis. In the initial phase, an endotoxin shock model was employed in the rat to delineate the function of skeletal muscle mitochondria. Mitochondrial function was determined polarimetrically, comparing state three and state four rates, respiratory control index (RCI) and ADP:O ratios. No significant alteration in these parameters was observed in the endotoxic state. Phase II of the study was designed to investigate mitochondrial function in a bacterial peritonitis rat model. Both liver and skeletal muscle mitochondrial function were determined to control for possible alterations in liver metabolism. Neither muscle nor liver mitochondria exhibited functional impairment during sepsis. We conclude from this study that neither endotoxemia nor peritonitis selectively "kills" mitochondria as previously suggested.
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PMID:Mitochondrial death in sepsis: a failed concept. 352 91

In the present study protein synthesis and energy level in liver tissue were studied in bacteremic rats following intravenous infusion of 8 +/- 4 X 10(9) live E. coli bacteria and in control animals receiving a corresponding infusion of sterile saline. For the study of protein synthesis, liver slices were incubated in a medium containing 14C-leucine and incorporation rate of amino acid into protein was determined. Hepatic concentrations of ATP, ADP, and AMP were measured and energy charge (EC) was calculated. Twenty-four hours after infusion of E. coli, hepatic protein synthesis rate was 55% higher than in control animals. Liver weight and hepatic protein content were also increased in bacteremic animals. There were no significant differences in adenine nucleotide levels or EC in liver tissue between control and bacteremic animals. Since impairment of various other liver functions has been reported during sepsis, the present results suggest that hepatic protein synthesis has high priority in this condition.
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PMID:Protein and energy metabolism in liver tissue following intravenous infusion of live E. coli bacteria in rats. 354 30


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