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

The objective of this study was to evaluate the safety and the effect of recombinant exogenous growth hormone (GH) on nitrogen production in patients with severe sepsis. It was designed as a prospective, randomized, placebo-controlled trial, and performed in the medical intensive care unit of a university hospital. Twenty patients admitted with septic shock and receiving standard parenteral nutrition served as subjects. Treatment consisted of GH 0.1 mg/kg/day or placebo administered as continuous intravenous infusion on the second, third, and fourth days after admission. The study period was eight days. During GH administration, nitrogen production decreased significantly in the GH group and increased in controls (p < 0.01). Nitrogen balance became slightly positive in the GH group during treatment: 1.2 +/- 6.4 versus controls -3.7 +/- 3.8 g/day (day 3) (p < 0.05). Within 24 hours after cessation of treatment, differences between GH and controls disappeared. 3-Methylhistidine excretion as a measure of absolute muscle breakdown declined during the study period, but did not differ between groups. The levels of insulin, insulinlike growth factor 1, glycerol, free fatty acids, and beta-hydroxybutyrate increased during treatment. Despite continuous intravenous administration, GH levels gradually declined during the 3 treatment days, indicating increased metabolic clearance. Side effects other than insulin resistance were not observed. Growth hormone administration reduces nitrogen production and improves nitrogen balance in patients with severe sepsis. These effects are not sustained after cessation of treatment.
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PMID:Effects of recombinant human growth hormone in patients with severe sepsis. 146 18

In this study we compared the effect of sepsis on muscle protein metabolism in infant (3 to 4 weeks) and adult (3 to 4 months) rats. Sepsis was induced by cecal ligation and puncture (CLP). Control animals underwent sham operation. Sixteen hours after CLP or sham operation, metabolic studies were performed in incubated intact extensor digitorum longus muscles from infant rats or in strips of the same muscle from adult rats. Protein synthesis rate was determined as incorporation of 3H-phenylalanine into protein; total and myofibrillar protein breakdown rates were determined as release of tyrosine and 3-methylhistidine, respectively. Mortality rate following CLP was similar in both age groups. Basal protein synthesis rate was 3 times higher, total protein breakdown rate was 50% higher, and myofibrillar protein breakdown rate was 3 times higher in infant than in adult animals. However, the relative changes in protein turnover rates induced by sepsis were similar in infant and adult rats: protein synthesis rate decreased by approximately 30%, total protein breakdown increased by 40% to 50%, and myofibrillar protein breakdown increased severalfold. The data suggest that despite prominent differences in basal protein turnover rates between infant and adult rats, the effect of sepsis on muscle protein metabolism is not age dependent.
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PMID:Is the metabolic response to sepsis in skeletal muscle different in infants and adults? An experimental study in rats. 147 97

The administration of branched-chain amino acids (BCAAs) has been proved useful in reducing both urea nitrogen production and muscle proteolysis in trauma patients with sepsis, but the optimum infusion rate to achieve these effects is still in question. In this prospective randomized study, a group of 16 posttrauma patients with sepsis received a branched chain-enriched (BCAA = 49.4%) amino acid mixture (8 patients; 120 observations) or a standard amino acid infusion (BCAAs = 15.5%; 8 patients; 227 observations). Total calories, percent lipid calories, and amino acid nitrogen administration were not different in the two groups. Each patient was studied at 8-hour intervals for the plasma levels of amino acids, six hepatic acute-phase proteins, albumin, and other metabolic parameters, including urinary urea nitrogen and 3-methylhistidine excretion. The total intake of each amino acid and its clearance were calculated and the dose of leucine during each 8-hour period was related to the leucine clearance, plasma acute-phase protein levels, and the urinary production of urea and 3-methylhistidine, as an indicator of proteolysis. The results show a significant (r2 = 0.691; p less than 0.0001) reduction of urea nitrogen production and proteolysis as a function of the increase in leucine dose. The identification of a critical mean rate of leucine infusion has been derived from the analysis of the significant linear correlation between leucine intake and leucine clearance (r2 = 0.594; p less than 0.0001). Significant positive correlations between the leucine intake dose and the platelet count (r2 = 0.402; p less than 0.0001), the plasma fibrinogen level (r2 = 0.218; p less than 0.0001), and the regression-derived sum of six acute-phase proteins plus albumin (r2 = 0.696; p less than 0.0001) were found. The increase in leucine clearance was progressively less marked above a mean daily leucine intake rate of 1.4 mumol/kg/min, which also appeared to be the dose level that maximized the acute-phase protein and coagulation effects and reduced proteolysis and urea nitrogen production, suggesting that this is a critical BCAA infusion rate at which an optimum leucine effect occurs. From these data a BCAA (leucine) dose nomogram has been derived.
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PMID:Leucine dose response in the reduction of urea production from septic proteolysis and in the stimulation of acute-phase proteins. 171 Mar 95

Hypermetabolism and multiple organ failure syndrome (MOFS) after trauma, surgery, or sepsis is associated with accelerated catabolism, the rapid onset of malnutrition, and immune system failure. Current nutritional support, enteral or parenteral, can achieve an acceptable nutritional response but appears unable to improve immune function. Nutrients such as arginine, refined menhaden oil, and RNA have been found to have immune-stimulating properties. This randomized blind prospective trial compared two nutritionally complete enteral formulas, one supplemented with arginine, menhaden oil, and RNA, on the disease-specific effects of anergy and suppression of in vitro tests of immune function in intensive-care patients and the nutritional outcome of nitrogen balance. After 7-10 days of enteral nutrition in patients with persistent sepsis syndrome, both formulas were associated with the achievement of net nitrogen retention and improved visceral protein status but with nonresolution of anergy. However, the supplemented formula was associated with marked stimulation of in vitro lymphocyte proliferative responses and a significant reduction in 3-methylhistidine excretion. Six and 12-mo follow-up data demonstrated no long-term effects. Nutrients targeted to effect the disease-induced in vitro suppression of immune function in MOFS appear to achieve that end independent of the nutritional outcome of nitrogen balance and without adverse clinical outcome.
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PMID:Improvement in immune function in ICU patients by enteral nutrition supplemented with arginine, RNA, and menhaden oil is independent of nitrogen balance. 172 41

Thirty dogs underwent hemorrhage over a 60-min period to a predetermined O2 debt of 60-120 mL O2/kg, monitored with a Beckman metabolic cart, and then were resuscitated with 120% of the shed volume. Twenty survived and were followed over the next 7 days. On day 4, hepatic insufficiency was suggested by an elevation in [total amino acids] and [lactate] and a decrease in [urea] and [branched-chain amino acids]/[aromatic amino acids]. Net whole body catabolism on day 4 is suggested by a decrease in [glutamine] and an increase in plasma [3-methylhistidine], [phenylalanine], and [tyrosine]. These changes were significantly related to cardiac index, mean blood pressure, [lactate], O2 debt, and shed volume during the hemorrhage 4 days earlier. On day 7 there was a significant increase in the cardiac index and the VO2. These data suggest that hemorrhage induces sequelae similar to major injury or sepsis: hepatic insufficiency, net catabolism, hypermetabolism, and a hyperdynamic circulation. The hyperdynamic circulation may be necessary to meet increased tissue delivery requirements for O2 and amino acids.
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PMID:Hepatic insufficiency and increased proteolysis, cardiac output, and oxygen consumption following hemorrhage. 177 49

Altered metabolism has been shown to exist in the settings of surgical stress, cancer, cirrhosis, sepsis, and trauma. Each condition is characterized by varying degrees of alteration in metabolic processes, and within a given patient, these metabolic alterations will change as the patient's status changes. Nutrition support is an integral part of the metabolic management of critically ill patients. Metabolic changes impact nutritional substrate requirements and utilization. As the patient's clinical condition deteriorates, clinical signs and symptoms become less reliable in predicting or assessing the existing physiologic state. Objective measurements are needed to define the metabolic status during these physiologic changes. The purpose of this article is to review selected indices that have been used to identify abnormalities in nutritional substrate metabolism. Although some of these tests are readily available and inexpensive, many have not been used outside of the research setting and, therefore, their clinical utility has yet to be determined. However, their use as research tools for defining metabolism warrants their inclusion in order to assist the clinician in interpreting research studies. The biochemical markers discussed include glucose, lactate, pyruvate, triglycerides, beta-hydroxybutyrate, acetoacetate, urinary nitrogen, acute phase proteins, visceral proteins, 3-methylhistidine, plasma amino acids, oxygen consumption, and resting energy expenditure. Each marker is defined in terms of its biochemical significance, and the literature describing changes that occur in various stress states is cited.
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PMID:Overview of biochemical markers used for nutrition support. 190 7

The metabolic response to sepsis is characterized by increased proteolysis and gluconeogenesis, reduced protein synthesis, and negative nitrogen balance. The effects of a solution with a high proportion of branched-chain amino acids (BCAA) on the nutritional state of septic patients were evaluated. Eighty patients with peritonitis were divided into two groups of 40 patients; group 1 was administered a solution with 22.5% BCAA and group 2 with 45% BCAA. The following parameters were evaluated: anthropometrics, creatinine/height index, urinary 3-methylhistidine, nitrogen balance, stress index, albumin, prealbumin, transferrin, retinol binding protein, lymphocytes, delayed cutaneous sensitivity tests, studies of hepatic function, and plasma aminogram. In group 2 a more positive nitrogen balance, a greater drop in the stress index, a rise in plasma prealbumin and retinol binding protein levels, an increase in the creatinine/height index, and a more marked fall in the urinary excretion of 3-methylhistidine were found. When solutions with a high BCAA content were administered, there was an increase in the plasma concentrations of these amino acids in the BCAA/aromatic amino acid quotient and a decrease in the aromatic amino acids. Plasma concentrations of leucine and valine achieved very high, potentially toxic, levels at 15 days when solutions with high BCAA content were used. It is concluded that solutions with BCAA are advisable for use in the septic patient in the increased protein catabolic phase, where positive nitrogen balance, a reduction in muscle protein catabolism, and faster recovery of muscle and visceral protein were obtained.
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PMID:Prospective study on the efficacy of branched-chain amino acids in septic patients. 190 75

To estimate the contribution of muscle protein in whole-body protein catabolism, the muscular contribution index (MCI; urine 3-methylhistidine/urine total nitrogen) was determined in 49 cases of elective laparotomy, together with the arterial blood ketone body ratio (KBR; acetoacetate/beta-hydroxybutyrate), which reflects hepatic mitochondrial redox potential. MCI increased after operation and the occurrence of severe infection, provided KBR was maintained above 0.7. In patients with sepsis, however, MCI decreased dependently with KBR (n = 33; p less than 0.01). In these patients, plasma proteolysis-inducing activity determined by in vitro bioassay increased in inverse proportion to KBR (n = 20, p less than 0.01). Moreover, plasma concentrations of not only aromatic but also branched-chain amino acids markedly increased when KBR decreased to below 0.4 (n = 23; p less than 0.05). Thus the role of muscle protein in septic catabolism is diminished under reduced hepatic mitochondrial redox potential, despite the rapid increase of proteolysis-inducing activity. This finally leads to the failure of amino acid uptake by muscles, as well as liver. These results suggest that the deteriorated substrate exchange may form the metabolic background for multiple systems organ failure, which is often preceded by reduced KBR.
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PMID:Hepatomuscular failure in septic catabolism: altered muscular response to plasma proteolytic factor in decreased hepatic mitochondrial redox potential. 199 52

We studied the influence of sepsis on muscle protein synthesis and degradation in vivo and in muscles, incubated flaccid or at resting length. Sepsis was induced in rats by cecal ligation and puncture (CLP). Control rats were sham-operated. A flooding dose of 14C-phenylalanine was used to determine muscle protein synthesis rate in vivo, and protein breakdown was calculated from the difference between protein synthesis and growth rates. Protein synthesis rate in vitro was assessed by determining incorporation of 14C-phenylalanine into protein in incubated extensor digitorum longus (EDL) and soleus (SOL) muscles. Total and myofibrillar protein breakdown rates were determined from release into incubation medium of tyrosine and 3-methylhistidine (3-MH), respectively. Muscle protein synthesis rate in vivo was reduced by 35%, similar to the reduction observed in muscles incubated flaccid or at resting length. The calculated protein breakdown rate in vivo was increased by 31% in septic rats. In incubated muscles, the increase in total protein breakdown (ie, tyrosine release) during sepsis was almost identical in muscles incubated flaccid or at resting length, ie, 83% to 88% in EDL and 47% to 49% in SOL. Myofibrillar protein degradation in vitro (ie, 3-MH release) was increased approximately 10-fold in EDL muscles incubated flaccid or at resting length, but was not significantly affected by sepsis in SOL. Results suggest that sepsis-induced changes in protein synthesis observed in muscles incubated either flaccid or at resting length reflect changes in vivo. Changes in protein breakdown were qualitatively similar in vivo and in vitro, but results in incubated muscles may overestimate the increase in muscle proteolysis caused by sepsis.
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PMID:Influence of sepsis in rats on muscle protein turnover in vivo and in tissue incubated under different in vitro conditions. 200 37

Muscle catabolism during sepsis is mainly caused by myofibrillar protein breakdown. The mechanism of this metabolic response is not known. We tested the hypothesis that increased protein breakdown in the extensor digitorum longus (EDL) muscle of septic rats is caused by increased activity of the so-called myofibrillar proteinase, which is a nonlysosomal proteolytic enzyme, and cathepsin B, which is a lysosomal proteinase. Sepsis, induced in male Sprague-Dawley rats (50 to 60 g) by cecal ligation and puncture (CLP), resulted in an approximately 50% increase in myofibrillar proteinase activity and an approximately 30% increase in cathepsin B activity. Concomitantly, both total and myofibrillar protein breakdown rates, measured as release of tyrosine and 3-methylhistidine (3-MH), respectively, by incubated EDL muscles, were substantially elevated. Treatment of septic rats with the mast cell degranulating compound 48/80 or the lysosomal protease inhibitor leupeptin significantly reduced myofibrillar proteinase and cathepsin B activities, but did not affect protein breakdown rates. The results suggest that increased protein breakdown in septic skeletal muscle is associated with, but not caused by, myofibrillar proteinase or cathepsin B activity. The data also support the concept of a mast cell origin of the myofibrillar proteinase activity, but do not suggest an obligatory involvement of mast cell proteinase in increased protein degradation during sepsis.
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PMID:Myofibrillar proteinase, cathepsin B, and protein breakdown rates in skeletal muscle from septic rats. 200 44


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