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)

1. Patients suffering trauma and sepsis are insulin resistant, but no studies have specifically been made of patients suffering multiple organ failure. 2. We have studied exogenous glucose utilization in multiple organ failure using a combination of the hyperglycaemic glucose clamp and indirect calorimetry to quantify glucose utilization in multiple organ failure, partitioning it into oxidative and nonoxidative disposal (storage). 3. Fourteen septic patients with multiple organ failure were studied. APACHE II (Acute Physiological and Chronic Health Evaluation Mark II) scores on the day of the study ranged from 11 to 31 (median 16). Twenty percent D-glucose was infused and blood glucose was clamped at 12 mmol/l for 3 h. The results were compared with those obtained on seven healthy control subjects. 4. Glucose utilization and energy expenditure were similar in the two groups for the first 90 min of the clamp, after which glucose utilization and energy expenditure increased steadily in the control subjects but did not change in the patients. Respiratory exchange ratio rose in both groups; considered over the whole of the clamp period, respiratory exchange ratio was slightly lower in the patients than in the control subjects (P < 0.05) but not at any specific time point. Glucose oxidation rose in both groups but non-oxidative glucose disposal (storage) rose only in the control subjects. Glucose oxidation was slightly lower in the patients (P < 0.05) but not at any specific time point and there was no difference between the groups in the amount by which glucose oxidation increased. Non-oxidative disposal in the patients fell significantly (P < 0.01) over the course of the clamp and was significantly lower than in the control subjects (P < 0.01). 5. Growth hormone increased in response to glucose infusion in the patients but not in the control subjects. 6. Like patients suffering uncomplicated sepsis or trauma, patients with multiple organ failure are also insulin resistant. The defect appears to lie in an impairment of the ability to store glucose rather than oxidize it, and this may be due in part to the increase in growth hormone in patients with multiple organ failure.
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PMID:Septic patients in multiple organ failure can oxidize infused glucose, but non-oxidative disposal (storage) is impaired. 854 78

A 71-year-old patient with high-grade non-Hodgkin's lymphoma stage IVB, severe lactic acidosis and tumor-associated hypoglycemia is described. Endocrine causes of hypoglycemic episodes were excluded because of low serum concentrations of insulin and "insulin-like growth factor 1", and normal concentrations of growth hormone and thyroid hormone. Clinical conditions associated with lactic acidosis such as diabetes mellitus, biguanide intoxication, septicemia, acute hypoxemia, or circulatory insufficiency were ruled out. Enhanced glucose metabolism within the tumor was visualized by positron emission tomography employing 2-fluro-2-deoxy-D-glucose (FDG) as a tracer. A markedly elevated tumor necrosis factor-alpha (TNF-alpha) level was found which decreased after cytoreductive therapy paralleling the normalization of serum lactate. In contrast to the majority of cases of lymphoma-associated lactic acidoses reviewed to date, in our case lactate elimination was not reduced.
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PMID:Lactic acidosis and hypoglycemia in a patient with high-grade non-Hodgkin's lymphoma and elevated circulating TNF-alpha. 859 16

"Septic autocannabalism" been coined to describe the metabolic response that follows severe sepsis in humans. The normal protein- and energy-conserving mechanisms evoked during simple starvation are not observed following the onset of sepsis. The metabolic response to sepsis entails rapid breakdown of the body's reserves of protein, carbohydrate, and fat. Hyperglycemia with insulin resistance, profound negative nitrogen balance, and diversion of protein from skeletal muscle to splanchnic tissues are prominent features. These responses are believed to be mediated in large part by inflammatory cytokines such as tumor necrosis factor alpha (TNFalpha), interleukin 1beta (IL-1beta), and IL-6. Secondary induction of catecholamines, cortisol, and glucagon by cytokines is likely to be another important effector mechanism. Infection and inflammation elicit a complex network of interwoven responses, and no single mediator alone accounts for the responses observed. Sepsis also commonly involves alterations in cardiovascular function with altered flow to key metabolic sites, hypoxia, damage to the gut's mucosal barrier, secondary organ failure, and alterations in capillary permeability. These structural and functional alterations also strongly influence the metabolic profile during infection. If these catabolic responses persist for more than a few days, severe malnutrition results and is likely to be an important risk factor for mortality in these patients. The altered metabolic milieu during sepsis prevents effective use of exogeneously delivered glucose and protein; at best, administration of these agents ameliorates but does not prevent the persistence of catabolism. Delivery of agents that antagonize cytokines and other moieties such as glutamine and growth hormone may, in the future, help to restore nitrogen balance during sepsis.
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PMID:Metabolism of sepsis and multiple organ failure. 866 35

The clinical and metabolic effects of 7 days of recombinant human growth hormone (rhGH) and total parenteral nutrition (TPN) in surgical patients with sepsis were determined in a randomized controlled trial. In patients with a mean(s.e.m.) pretreatment rate of net protein catabolism (NPC) of 1.5 g per kg per day or less rhGH treatment decreased NPC from 0.93(0.14) to -0.20(0.24) g per kg per day (n = 5; P < 0.0005) and rendered these patients anabolic. TPN alone decreased NPC from 1.12(0.11) to 0.61(0.11) g per kg per day (n = 5; P < 0.001). In patients with an initial NPC of more than 1.5 g per kg per day rhGH treatment decreased NPC from 2.72(0.12) to 1.08(0.24) g per kg per day (n = 5; P < 0.001) while TPN alone decreased it from 2.41(0.32) to 1.28(0.28) g per kg per day (n = 5; P < 0.005). Use of rhGH was not associated with any adverse effects or improvement in clinical course but did decrease the mean systolic and diastolic pressures during the study period. Thus rhGH is a useful anabolic agent and may have a role in the haemodynamic management of the catabolic patient with sepsis.
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PMID:Anabolic and cardiovascular effects of recombinant human growth hormone in surgical patients with sepsis. 868 62

Acquired growth hormone (GH) resistance is an increasingly recognized feature of catabolic states. Low circulating levels of the insulin-like growth factors (IGF-I and II) have been shown to be associated with changes in the IGF binding proteins (IGFBP-1 to -6) that may significantly impact on IGF bioactivity. IGFBP-3 binds IGF and a third glycoprotein, the acid labile subunit (ALS), to form a stable 150 kDa ternary complex that serves as an intravascular store for IGFs and prolongs IGF half-life. IGFBP-1 is present at much lower concentration in serum but levels fluctuate acutely, suggesting regulation of IGF bioactivity in response to short-term metabolic changes. The function of IGFBP-2 remains unclear, but studies suggest that this protein may act as an alternative carrier for IGF when IGFBP-3 levels are low. Multiple regulatory influences on circulating IGFBP levels have been identified but three appear prominent. Nutritional influences, in particular substrate availability, appear to be a central regulatory influence on IGFBP levels in catabolic states. Low substrate availability increases IGFBP-1 levels acutely and decreases IGFBP-3 and IGFBP-2 levels in the intermediate term, with each of these changes likely to further limit IGF bioactivity. End organ failure, particularly of liver and kidney significantly affects production and clearance rates of the circulating IGFBPs and may contribute to the catabolism frequently seen in these states. Severe protein catabolism often accompanies malignancy and chronic sepsis and it is likely that additional ill-defined factors influence IGF bioactivity in this setting. Recent studies have identified post-translational modifications to the IGFBPs such as proteolysis and phosphorylation, which appear to further impact on IGF bioactivity. The relative contributions of these changes to the overall impairment of IGF bioactivity in GH-resistant states remains to be fully elucidated.
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PMID:Insulin-like growth factor bioactivity and its modification in growth hormone resistant states. 885 49

The metabolic response to trauma and sepsis involves an increased loss of body proteins. Specific sites of changes of protein and amino acid metabolism have been identified. In skeletal muscle, the rate of proteolysis is accelerated greatly. The rate of protein synthesis also may be increased but not enough to match the increase in degradation. Intramuscular glutamine concentration is decreased because of increased efflux and possibly decreased de novo synthesis. In the liver, the rate of synthesis of selected proteins (i.e., albumin, transferrin, prealbumin, retinol-binding protein, and fibronectin) is decreased, whereas acute phase protein synthesis is accelerated. Tissues characterized by rapidly replicating cells, such as enterocytes, immune cells, granulation tissue, and keratinocytes, exhibit early alterations in the case of decreased protein synthesis capacity. In these tissues, glutamine use is accelerated. Increased stress hormone (cortisol and glucagon) and cytokine secretion, as well as intracellular glutamine depletion, are potential mediators of altered protein metabolism in trauma and sepsis. However, the relative importance of these factors has not been clarified. Therapy of acute protein catabolism may include the use of biosynthetic human growth hormone, possibly in combination with insulin-like growth factor-1, and the administration of metabolites at pharmacologic doses. We recently studied the effects of carnitine and alanyl-glutamine administration in severely traumatized patients. We found that both carnitine and the glutamine dipeptide restrained whole-body nitrogen loss without affecting selected indices of protein metabolism in the skeletal muscle.
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PMID:Metabolic response to injury and sepsis: changes in protein metabolism. 929 Jan 10

Short-bowel syndrome is a rare problem in surgical practice and its prognosis depends on the length of intestinal remnants and/or the presence of a jejunostomy. In adults long-term total parenteral nutrition (TPN) can be avoided if the remaining small bowel is longer than 60-100 cm. In all, 50-60% of patients in the long-term follow-up are expected to be adequately nourished with oral feeding, 25% with enteral and parenteral feeding and less than 20% depend on long-term TPN alone. By using a modified diet (glutamine, growth hormone), intestinal absorption and overall prognosis could even be enhanced. The introduction of home TPN by specialized centres has resulted in a remarkable improvement in quality of life (> 80% good). The main complications of long-term TPN are sepsis, thrombosis and metabolic disorders. Medical therapy of diarrhoea consists of H2-receptor antagonists (hypergastrinaemia), loperamide and secretion inhibitors (somatostatin). Several surgical procedures have been performed, either to decelerate intestinal transit or to increase the area of intestinal absorption with overall unsatisfactory results. However, in the presence of small-bowel dilatation, promising surgical results (tapering, stricturoplasty, intestinal lengthening) have been achieved. There may be advances (immunosuppression) in the future that will make intestinal transplantation a good option for some patients; at present, the 1-year patient and graft survival in around 100 patients was 60% and 40%, respectively.
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PMID:[Pathophysiology, clinical aspects and therapy of short bowel syndrome]. 932 32

The aim of this study was to assess the influence of growth hormone (GH) in sepsis on the immune system represented by the circulating TNF-levels and the neutrophil leukocytes phagocytic capacity and respiratory burst, 22 piglets were randomized to 3 groups; pretreatment with GH (16 i.u.) before sepsis (n = 8), non-treated septic controls (n = 8), and non-septic controls (n = 6). Sepsis was induced by a standardized infusion of live E. coli. TNF was measured by a cytotoxic bioassay, while neutrophil function tests were carried out by flowcytometric assays. In brief, phagocytosis was evaluated by the neutrophils' ability to ingest FITC-labelled (fluorescein isothiocyanate) E. coli and intracellular release of oxygen metabolites was detected by the oxidation of 2',7'-dichlorofluorescin (DCFH) to the fluorescent 2',7'-dichlorofluorescein (DCF). Our data show a suppression of phagocytosis in the GH-treated group before sepsis; however, when challenged with Gram-negative bacteria, the phagocytic capacity was similar to that of the non-treated animals. The serum levels of TNF in the non-treated septic control group were twice the levels of those in the GH-treated group, 65.7 pg/ml (septic controls) vs 32.8 pg/ml (GH). Pretreatment with a single dose of GH few hours prior to sepsis does not seem to entail any further imbalance of the neutrophil function in sepsis. Lowering of the circulating TNF-levels is a presumptive favourable effect of GH in sepsis.
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PMID:The influence of growth hormone on tumour necrosis factor and neutrophil leukocyte function in sepsis. 936 Feb 56

There is no doubt that acute renal failure (ARF) is associated with enhanced protein breakdown. It has been shown that protein split products can be measured in plasma samples of these patients. On the other hand, ARF frequently occurs in conditions of increased metabolic stress which leads to enhanced protein catabolism. Muscle wasting, loss of lean body weight, and a negative nitrogen balance result in malnutrition which considerably increases morbidity and mortality. Besides the accumulation of uremic toxins, several other factors are involved in the accelerated proteolysis in ARF. Metabolic acidosis appears to be one of the major catabolic factors in chronic renal failure, and probably in ARF as well. Insulin resistance, which is commonly attributed to uremia, also increases protein degradation. However, this derangement of carbohydrate metabolism is not directly accessible to therapy, in contrast to acidosis, which can be easily corrected by bicarbonate administration. There is further evidence that glucocorticoid excess contributes to the enhanced muscle proteolysis in ARF. Moreover, several studies have demonstrated that only in the presence of both glucocorticoids and acidosis could proteolysis occur. Investigation of the cellular mechanism by which muscle proteins are degraded indicates the importance of the cytosolic, soluble ATP- and ubiquitin-dependent proteolytic system. Successful treatment of various catabolic conditions with recombinant human growth hormone and insulin-like growth factor-I seems to be a promising strategy in severely catabolic patients with ARF. Anticytokine therapy appears to be another promising treatment in the course of catabolic illness due to sepsis; however, clinical application is still in its infancy.
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PMID:Protein catabolism in acute renal failure. 938 14

We report on a patient with Nevo syndrome manifesting intrauterine and postpartum overgrowth, accelerated osseous maturation, dolichocephaly, highly arched palate, large, low-set ears, cryptorchidism, delayed neuropsychological development, hypotonia, adema, contractures of the hands and feet, a single a transverse palmar crease, and tapering digits. After meningococcal sepsis at age 6 months, he remained decerebrate. Thereafter, overgrowth and especially weight gain were extremely accelerated until his death at age 18 months, at which time his height was 103 cm and his weight was 23 kg. In addition to low plasma concentrations of growth hormone and insulin-like growth factor, severe insulin resistance was observed. It is presumed that a selective defect in insulin-stimulated glucose uptake, with preservation of anabolic effect, was one of the causes of his "overgrowth without growth hormone," at least in the last 12 months of life after severe brain damage.
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PMID:Nevo syndrome. 950 68


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