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)

The roles of prostaglandins and lysosomal proteases in accelerated skeletal muscle proteolysis during sepsis are not yet fully understood. In this study rats received intraperitoneal injections of the prostaglandin synthesis inhibitor indomethacin (IND, 5.0 mg/kg), the lysosomal cathepsin B inhibitor leupeptin (LEU, 2.5 mg/kg), or normal saline 2 hr before cecal ligation and puncture (a model of intraabdominal sepsis) or sham-operation. The injections were repeated every 6 hr for a total of four doses. Sixteen hours after operation, intact extensor digitorum longus (EDL) muscles were harvested and cathepsin B activity was measured in one muscle. The contralateral muscle was incubated in oxygenated Krebs-Henseleit bicarbonate buffer containing glucose (10 mM) and cycloheximide (0.5 mM), and protein degradation rate was determined as the release of tyrosine into the incubation medium. Both muscle cathepsin B activity and protein degradation rate were higher in septic than in sham-operated rats. Treatment with IND or LEU significantly reduced the elevated cathepsin B activity in septic muscles, but failed to significantly alter muscle proteolysis. In nonseptic muscle, both cathepsin B activity and protein degradation rate were unaffected by the different types of treatment. The results suggest that although prostaglandins may influence muscle lysosomal protease activity, neither prostaglandins nor the lysosomal protease cathepsin B appear to be major regulators of accelerated muscle protein breakdown during sepsis.
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PMID:Effects of indomethacin and leupeptin on muscle cathepsin B activity and protein degradation during sepsis. 339 87

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

Sepsis has been shown to decrease skeletal muscle glucose oxidation by inhibiting the pyruvate dehydrogenase activity (PDHa) and to increase proteolysis and use of branched-chain amino acids (BCAA). The effects of dichloroacetate (DCA), which reverses PDHa inhibition, were studied in skeletal muscle from a septic (S) rat model of intra-abdominal abscess (E. coli + B. fragilis) and compared to control (C) and sterile inflammatory abscess (I) animals. In one set of S, I, and C animals, DCA (1 mmol/kg) was injected intraperitoneally at 0, 30, and 60 min. Septic, but not I, rats had a twofold increase in skeletal muscle lactate concentrations over C, but no changes in pyruvate. After DCA, both lactate and pyruvate were reduced (p less than 0.001) to same level in S, I, and C. Skeletal muscle alanine was increased in S compared to I or C, but after DCA was reduced threefold in C, S, and I (p less than 0.001) suggesting that alanine synthesis may be impaired due to decreased pyruvate availability. Like alanine, skeletal muscle BCAA were increased in S compared to C, but not altered in I. Following DCA, BCAA levels in muscle from S were reduced (p less than 0.001) to values seen in C or I. Muscle phenylalanine content was significantly elevated in S (p less than 0.05) compared to C or I, but was reduced (p less than 0.05) after DCA in S but not in C or I. Decreased muscle phenylalanine associated with lowered BCAA suggests DCA may decrease septic muscle protein catabolism and/or enhance protein synthesis. Coupled with an increased PDHa and reduced lactate levels, this suggests that DCA may reverse the excess muscle catabolism and BCAA dependence of sepsis by increasing glucose and lactate oxidation and may be a useful therapeutic modality.
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PMID:Pharmacological reversal of abnormal glucose regulation, BCAA utilization, and muscle catabolism in sepsis by dichloroacetate. 341 55

It has been recently suggested that increased muscle protein degradation during injury or infection is at least partially mediated by the increased production of prostaglandin E2 in muscle, and some have suggested that cyclooxygenase inhibitors might decrease protein loss in injured or septic patients. In these experiments, fractional synthesis rates of mixed muscle and liver protein and whole-body tyrosine flux were measured by constant intravenous infusion of tyrosine labeled with carbon 14 in 17 rats with sham operations and 15 severely septic rats with or without indomethacin treatment (20 mg/kg/d). Fractional synthesis rates in muscle and liver were decreased in late sepsis and were lowest in the septic group receiving indomethacin. Unlike the fractional synthesis rate, which was affected by indomethacin in septic rats only, tyrosine flux was significantly lower in indomethacin-treated rats with sham operations and those with sepsis. Although indomethacin reduced total-body protein breakdown during sepsis, it was also associated with lower plasma albumin levels and with decreased protein synthesis in muscle and liver at a time when the survival of the septic host may be dependent on its ability to produce new protein for a variety of vital functions. These results do not support the use of indomethacin in sepsis.
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PMID:The effect of indomethacin on muscle and liver protein synthesis and on whole-body protein degradation during abdominal sepsis in the rat. 346 35

Accelerated muscle proteolysis is a characteristic of systemic reaction following trauma, sepsis, or extensive thermal injury. The factors involved in this accelerated muscle breakdown have not been fully described. However, recently leukocytic pyrogen or interleukin 1 (IL-1) have been implicated in the induction of muscle protein degradation in septicemia or trauma. The epidermal cytokine epidermal cell-derived thymocyte activating factor (ETAF) is biochemically and functionally similar to IL-1. Injury to skin can augment ETAF activity. Using a murine model, we found that thermal injury can significantly enhance ETAF/IL-1 activity in a dose-dependent fashion. In addition, ETAF can cause net muscle protein breakdown in vitro. Thus, increased amounts of ETAF produced by thermally injured skin may contribute to the accelerated muscle breakdown in extensive thermal injury.
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PMID:Stimulation of muscle protein degradation by murine and human epidermal cytokines: relationship to thermal injury. 353 47

Five days after thyroidectomy (Tx) or sham-Tx in young male Sprague-Dawley rats, sepsis was induced by cecal ligation and puncture (CLP). Control animals underwent laparotomy and manipulation of the cecum without ligation or puncture. Sixteen hours after CLP or laparotomy, protein synthesis and degradation were measured in incubated extensor digitorum longus (EDL) and soleus (SOL) muscles by determining rate of 14C-phenylalanine incorporation into protein and tyrosine release into incubation medium, respectively. Triiodothyronine (T3) was measured in serum and muscle tissue. Protein synthesis was reduced by 39% and 22% in EDL and SOL, respectively, 16 hours after CLP in sham-Tx rats. The response to sepsis of protein synthesis was abolished in Tx rats. Protein breakdown was increased by 113% and 68% in EDL and SOL, respectively, 16 hours after CLP in sham-Tx animals. The increase in muscle proteolysis during sepsis was blunted in hypothyroid animals and was 42% and 49% in EDL and SOL, respectively. T3 in serum was reduced by sepsis, both in Tx and sham-Tx rats. T3 in muscle, however, was maintained or increased during sepsis. Abolished or blunted response of muscle protein turnover after CLP in hypothyroid animals may reflect a role of thyroid hormones in altered muscle protein metabolism during sepsis. Reduced serum levels of T3, but maintained or increased muscle concentrations of the hormone, suggests that increased T3 uptake by muscle may be one mechanism of low T3 syndrome in sepsis, further supporting the concept of a role for thyroid hormone in metabolic alterations in muscle during sepsis.
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PMID:Studies on the possible role of thyroid hormone in altered muscle protein turnover during sepsis. 360 30

A number of indicators of surgical risk were measured in 218 patients awaiting major gastrointestinal surgery. The indices chosen had been used by others to identify high risk patients and they were compared with each other and with two clinical assessments of risk, one by the operating surgeon and the other by an independent clinician who performed a complete physical examination. Anthropometric indices did not pick out patients who were significantly at high risk but the plasma proteins (albumin, pre-albumin, transferrin) identified subgroups of high risk patients, about a third of whom developed major postoperative complications. Although some nutritional indicators which use plasma proteins for the computation selected patients who were significantly more at risk, some (20-30 per cent) of the patients with low levels of plasma proteins (particularly those who were septic) did not have depleted fat or muscle protein stores. Although the surgeons were able correctly to identify only a small number of very high risk patients the results showed that a carefully performed clinical examination was able to do this as effectively as the plasma proteins. It is suggested that something more than a global assessment by the operating surgeon is required to identify high risk patients. A careful assessment of medical risk noting in particular cardiorespiratory disease and pre-existing sepsis, as well as nutritional state, is as effective as any other currently used indicator of risk.
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PMID:Indicators of surgical risk and clinical judgement. 394 77

Markedly increased synthesis of alpha(2) and beta globulins and alpha(1), alpha(2), and beta glycoglobulins occurs during pneumococcal sepsis in the rat simultaneously with decreased albumin formation, diminished tritiated leucine incorporation into muscle protein, and enhanced excretion of nitrogen. This augmented synthesis of specific serum proteins does not become evident until fever and bacteremia develop, and it appears to be a fundamental aspect of host response to a proliferating bacterial infection in that it occurs even in rats fed a protein-deficient (6% protein) diet after weaning and before exposure to Diplococcus pneumoniae. Although amino acid catabolism, in general, appears to be increased during infection, tryptophan degradation via the kynurenine pathway, as assessed by measuring diazotizable urinary metabolites, changes little or is, at times, significantly less than in control animals. Coincidentally, functional tryptophan oxygenase activity decreases at 16 hr after exposure. Total tryptophan oxygenase activity, however, is unchanged.
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PMID:Nitrogen metabolism and protein synthesis during pneumococcal sepsis in rats. 440 82

The severely burned patient responds differently to starvation ketosis in the early stage of injury as compared to the normal individual. A similar response has been observed in the patient after skeletal trauma and sepsis. In order to determine the extent of muscle protein contribution and the mechanism(s) involved, 11 burn patients with 35% to 80% BSA burn were resuscitated using carbohydrate-free solutions for 3 days followed by unrestricted intake. Blood was drawn daily and 24-hour urinary nitrogens were determined. Controls consisted of 10 preoperative elective surgical patients and two normal volunteers. The burned patients lost a mean +/- SEM of 17.1 +/- 1.72 g nitrogen per day on the third day. The mean +/- SEM ketone body response on the third day for burned patients was 385 +/- 77 mumol/l compared to 727 +/- 81 mumol/l for control patients. The mean +/- SEM 3-methylhistidine loss for burned patients on the third day was 9.83 +/- 0.82 mumol/kg compared to 3.6 mol/kg for control patients. Insulin levels on the third day of fast were three times the normal group. This insulin increase may be the modulating factor that suppresses excessive fat mobilization. This metabolic response causes a lower plasma ketone level, which may then necessitate the need for continued protein catabolism for glucose production for certain tissues. The protein contribution to the hypercatabolic response as assessed by increased urinary nitrogen losses is in part supported by an increased muscle protein breakdown as indicated by increased 3-methylhistidine excretion.
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PMID:The effect of major thermal injury and carbohydrate-free intake on serum triglycerides, insulin, and 3-methylhistidine excretion. 638 84

The effects of adequate total parenteral nutrition (TPN) on nitrogen excretion, urea N percentage, 3-methylhistidine excretion, and leg amino acid output, were studied during the ten-day period following abdominal surgery for generalized peritonitis in nine patients. The first two postoperative days were without nutritional intake, TPN was started on the third postoperative day (57 cal/KgBW--40% as Intralipid--0.30 g of N/KgBW). Leg amino acid outputs were done before TPN (DO), then two days (D2) and eight days (D8) after TPN. Total nitrogen and urea N percentage did not significantly differ before and after TPN. Between DO and D2 there was a significant reduction of urinary 3-methylhistidine (467 +/- 37 to 280 +/- 29 mumol/24 h-P less than 0.001) and leg amino acid release (604 +/- 103 to 254 +/- 87 nmol/mn/100 g of calf muscle--P less than 0.01) reflecting reduction in muscle hypercatabolism despite the persistence of the septic state. Between D2 and D8, 3-methylhistidine remained stable while leg amino acid release continued to decrease (254 +/- 87 to 68 +/- 40 nmol/mn/100 g--P less than 0.05). This association suggests an increased muscle protein synthesis. A closer examination of the clinical evolution of these patients, especially concerning their septic evolution, shows that only improved patients with recovery from sepsis increased their muscle protein synthesis. Thus, in septic hypercatabolic patients TPN seems to be able to reduce muscle catabolism while the increase in protein synthesis is mainly the consequence of recovery from the septic state. In such patients TPN should be used as a preventive therapeutic measure.
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PMID:Effect of parenteral nutrition on muscle amino acid output and 3-methylhistidine excretion in septic patients. 642 10

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