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)

In the development of sepsis DIC is a common complication. Several studies presented in this paper show a coincidence between the development of DIC and depletion of Antithrombin III, a serine protease inhibitor which inhibits a large scale of activated clotting factors. It seems very probable that substitution therapy should be of benefit in the treatment of sepsis-related DIC and may improve the outcome of septic patients. Physiological and clinical findings are put together to clarify the basic rationale for running clinical trials and future studies.
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PMID:AT III in septicemia with DIC. 822 35

The pathophysiology of sepsis and septic shock is extremely complex and ultimately involves every physiological pathway. The initiating event is the entrance of endotoxin or similar substances into the blood which initiates the release of multiple mediators. These are designed to react locally and to protect the organism. Their constant release, however, sets in motion up- and down regulations, ultimately resulting in "metabolic anarchy". Tumor necrosis factor alpha and other cytokines trigger several systems, especially coagulation to yield DIC, and the complement system. Many treatment modalities have been developed, most recently those which substitute inhibitors of various systems. Antithrombin III concentrates and potentially protein C concentrates are designed to arrest DIC. C1-esterase inhibitor concentrates should intercept the activation of the complement system and the contact phase of coagulation and its relationship to kinin generation. Even newer approaches entail antibodies to tumor necrosis factor alpha or endotoxin itself. The complex process of sepsis will undoubtedly require a multifaceted therapeutic approach.
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PMID:Perspectives for the future. 822 36

Patients with fulminant hepatic failure have severe circulatory disturbances which may be due to fibrin and cellular plugs in micro-vessels which are a consequence of intravascular coagulation and which can lead to multiorgan failure. Since antithrombin III supplementation has been shown to be beneficial in animal models of septic shock with disseminated intravascular coagulation, a controlled study was performed to investigate the effect of antithrombin III supplementation in fulminant hepatic failure. Twenty-five patients in grade III or IV coma were selected on the basis of evidence of sepsis, intravascular coagulation and a high risk of developing multiorgan failure. Thirteen patients received 3000 units of antithrombin III (Kybernin P; Behringwerke), followed by a further 1000 units every 6 h. Antithrombin III activity increased from 0.26 +/- 0.04 SE U/ml to 0.82 +/- 0.07 U/ml at 3 h post infusion (normal range 0.80-1.20 U/ml) and remained greater than 0.80 U/ml throughout the study without any apparent increase in the frequency of bleeding. However, survival was not improved and markers of intravascular coagulation remained similar between the two groups. Thus, although the antithrombin III deficiency in fulminant hepatic failure can be corrected by supplementation with antithrombin III concentrate, its use in the prevention of intravascular coagulation and to avoid microvessel plugging needs to be studied at an earlier stage in the disease.
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PMID:Controlled trial of antithrombin III supplementation in fulminant hepatic failure. 831 61

Activation of thrombin and of the coagulation system plays an important role in the pathophysiology of sepsis-associated organ dysfunction. Antithrombin III (AT III) is a natural inhibitor of thrombin, a central procoagulatory factor with pleiotropic activities. Experimental supplementation of AT III improved coagulation parameters and ameliorated organ dysfunction. To determine whether long-term AT III supplementation has beneficial effects on organ function, we conducted a randomized, prospective study in surgical patients with severe sepsis. The study evaluated the long-term effect of AT III supplementation (duration of treatment: 14 days). After randomization (AT III vs. control group), AT III was infused continuously over 14 days to obtain plasma AT III activities > 120%. Forty consecutive patients were recruited (20 AT III/20 control group). Eleven patients had a rapid fatal course and did not met the criterion of a 14 day treatment period. From these 11 patients, 8 patients (5 AT III/3 control group) died within 72 h due to septic shock. The remaining 14 AT III patients and 15 controls survived 14 days and showed no differences in baseline parameters of organ function. AT III caused a disappearance of disseminated intravascular coagulation (DIC) in all patients with DIC, whereas in control patients, the frequency of DIC remained constant (p < .05). In AT III patients a progressive increase in oxygenation index (PaO2/FiO2 ratio) and a continuous decrease in pulmonary hypertension index (mean pulmonary artery pressure/mean arterial pressure (PAP/MAP) ratio) indicated an improvement of lung function (p < .05 vs. control). AT III prevented the continuous rise in total serum bilirubin concentration observed in control patients and diminished the frequency of artificial renal support therapy (p < .05). Long-term supplementation with AT III may improve lung function and prevent the development of septic liver and kidney failure in patients with severe sepsis.
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PMID:Antithrombin III supplementation in severe sepsis: beneficial effects on organ dysfunction. 936 42

Antithrombin III (AT III) supplementation has proven to be effective in the treatment of disseminated intravascular coagulation. Administration of AT III is also useful for prevention of organ failure in animals challenged with endotoxin or bacteria and it increases the survival rate of such animals. Since inhibition of coagulation abnormalities failed to prevent organ failure in animals given bacteria, AT III may exert a therapeutic effect independent of its anticoagulant effect. This therapeutic mechanism of AT III has been explored using an animal model of septicemia. AT III prevented pulmonary vascular injury by inhibiting leukocyte activation in rats given endotoxin. This effect is mediated by the promotion of endothelial release of prostacyclin which inhibits leukocyte activation. Interaction of AT III with heparin-like glycosaminoglycans (GAGs) on the endothelial cell surface appears to be important for this effect. Heparin inhibits these therapeutic effects of AT III by preventing AT III from interacting with the cell surface heparin-like GAGs. This activity of AT III may explain why AT III prevents organ failure as well as coagulation abnormalities in patients with sepsis. This antiinflammatory activity of AT III may be useful for the treatment of organ failure such as in ischemia/reperfusion-induced organ dysfunction, in which activated leukocytes play a critical role.
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PMID:The anti-inflammatory properties of antithrombin III: new therapeutic implications. 951 77

Antithrombin III (AT III) is the physiological inhibitor of thrombin and other serine proteases of the clotting cascade. In the development of sepsis, septic shock and organ failure, the plasma levels of AT III decrease considerably, suggesting the concept of a substitution therapy with the inhibitor. A decrease of AT III plasma levels might also be associated with other pathological disorders like trauma, burns, pancreatitis or preclampsia. Activation of coagulation and consumption of AT III is the consequence of a generalized inflammation called SIRS (systemic inflammatory response syndrome). The clotting cascade is also frequently activated after organ transplantation, especially if organs are grafted between different species (xenotransplantation). During the past years AT III has been investigated in numerous corresponding disease models in different animal species which will be reviewed here. The bulk of evidence suggests, that AT III substitution reduces morbidity and mortality in the diseased animals. While gaining more experience with AT III, the concept of substitution therapy to maximal baseline plasma levels (100%) appears to become insufficient. Evidence from clinical and preclinical studies now suggests to adjust the AT III plasma levels to about 200%, i.e., doubling the normal value. During the last few years several authors proposed that AT III might not only be an anti-thrombotic agent, but to have in addition an anti-inflammatory effect.
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PMID:Antithrombin III in animal models of sepsis and organ failure. 951 81

Despite improvements in critical care medicine and the development and aggressive use of potent broad-spectrum anti-microbial agents, mortality due to severe sepsis has not changed during the recent years and still comes to 35% to 45%. For quite a long time our understanding of the pathophysiology of sepsis was mainly focused on endotoxin and proinflammatory cytokines like tumor necrosis factor or interleukin-1. Now it is generally accepted that many signs and symptoms of sepsis are not directly mediated by cytokines but are transmitted through other mediator systems. The coagulation system comes into play especially when the septic process progresses to malperfusion and organ failure. Antithrombin III is an important inhibitor of the intrinsic, extrinsic and common pathway of coagulation. Recently, evidence has been accumulating that there is an additional anti-inflammatory potential of the drug. Currently there are several clinical trials ongoing to investigate whether this effect is of clinical relevance in the treatment of patients with severe sepsis.
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PMID:Clinical experience with antithrombin III concentrates in critically ill patients with sepsis and multiple organ failure. 951 82

Disseminated intravascular coagulation (DIC) can be caused by a variety of diseases. Experimental models of DIC have provided substantial insight into the pathogenesis of this disorder, which may ultimately result in improved treatment. Disseminated coagulation is the result of a complex imbalance of coagulation and fibrinolysis. Simultaneously occurring tissue factor-dependent activation of coagulation, depression of natural anticoagulant pathways and shutdown of endogenous fibrinolysis all contribute to the clinical picture of widespread thrombotic deposition in the microvasculature and subsequent multiple organ failure. Cornerstone for the treatment of DIC is the optimal management of the underlying disorder. At present, specific treatment of the coagulation disorders themselves is not based on firm evidence from controlled clinical trials. Plasma and platelet transfusion are used in patients with bleeding or at risk for bleeding and low levels of coagulation factors or thrombocytopenia. The role of heparin and low molecular weight heparin is controversial, but their use may be justified in patients with active DIC and clinical signs of extensive fibrin deposition such as those with meningococcal sepsis. There is some evidence to indicate that low molecular weight heparin is as effective as unfractionated heparin but may be associated with a decreased bleeding risk. Antithrombin III (AT III) replacement appears to be effective in decreasing the signs of DIC if high doses are administered, but effects on survival or other clinically significant parameters are at best uncertain. If AT III supplementation is used, the dosage should be selected to achieve normal or supranormal plasma levels of 100% or higher. Results of studies on protein C concentrate, thrombomodulin or inhibitors of tissue factor are promising, but the efficacy and safety of these novel strategies remains to be established in appropriate clinical trials.
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PMID:Current drug treatment strategies for disseminated intravascular coagulation. 961 92

Antithrombin III (AT III) is an important inhibitor of thrombin activity, as well as of many other proteases of the coagulation system. AT III administration showed beneficial effects on septic multiple organ dysfunction in clinical and experimental studies. It was the aim of this study to determine whether continuous long-term AT III supplementation alters the systemic inflammatory response in patients with severe sepsis. In a prospective study, 29 surgical patients with severe sepsis were randomly assigned to receive either conventional intensive care treatment (n = 15, control group) or additional AT III supplementation to achieve a plasma AT III activity >120% during a 14 day study period (n = 14, AT III group). Plasma concentrations of interleukin (IL)-6 and IL-8 and of the circulating soluble adhesion molecules sICAM-1 and sE-selectin, as well as of PMN elastase, were determined daily. Additionally, total leukocyte count and C-reactive protein (CRP) were measured daily, and body temperature was registered. Compared to control patients, a down-regulation of plasma IL-6 was observed in the AT III group (p < or = .01). AT III supplementation prevented the continuous increase in sICAM-1 plasma concentration observed in control patients and led to a significant fall in soluble sE-selectin and CRP concentration (p < or = .01). This fall corresponded to a down-regulation of body temperature over time (p < or = .01). There was no AT III effect on IL-8, PMN-elastase concentration, or total leukocyte count. Our results show that long-term AT III supplementation attenuates the systemic inflammatory response in patients with severe sepsis. The down-regulation of IL-6 may also explain the fall in endothelium-derived adhesion molecules and may represent the molecular basis by which AT III exerts its beneficial effects on organ function.
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PMID:Effect of antithrombin III supplementation on inflammatory response in patients with severe sepsis. 972 74

Antithrombin III (ATIII) and protein C (PC) are major inhibitors of the coagulation cascade and might regulate the cytokine network. We tested the possibility that a combined supplementation using these two inhibitors might have synergistic effects on sepsis-induced disseminated intravascular coagulation and shock. Hemodynamics, coagulation parameters, tumor necrosis factor (TNF) alpha, and interleukin 6 levels were measured in pigs submitted to a bolus infusion of Escherichia coli endotoxin (lipopolysaccharide). Four groups were studied: control lipopolysaccharide, ATIII (100 IU/kg), PC (50 IU/kg), and ATIII-PC (same doses). The endotoxin infusion resulted in a typical hypokinetic shock with disseminated intravascular coagulation in all animals. Compared with the control group, a significant improvement in mean arterial pressure and systemic vascular resistance was observed in the PC and ATIII-PC groups. The increase in lactate levels was almost completely blunted in the PC group. A significant lesser increase in TNFalpha levels was observed in the ATIII-PC group. No effects were seen on interleukin 6 levels. Coagulation and fibrinolysis parameters were not improved by ATIII and/or PC, except for a lesser decrease in prothrombin time in the ATIII-PC group. We conclude that in this acute endotoxic model, a combined supplementation using PC and ATIII concentrates has favorable effects on hemodynamic parameters and TNFalpha levels, independently from the anticoagulant actions of these inhibitors.
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PMID:Effects of a combined antithrombin III and protein C supplementation in porcine acute endotoxic shock. 984 Jun 53


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