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

Sepsis, a systemic inflammatory syndrome, is a response to infection and when associated with multiple organ dysfunction is termed severe sepsis. It remains a leading cause of mortality in the critically ill. The response to the invading microorganisms may be considered as a balance between a pro-inflammatory and an anti-inflammatory reaction. While an inadequate pro-inflammatory reaction and a strong anti-inflammatory response could lead to overwhelming infection and the death of the patient, a strong and uncontrolled pro-inflammatory response, manifested by the release of pro-inflammatory mediators may lead to microvascular thrombosis and multiple organ failure. Endotoxin triggers sepsis via the release of various mediators such as tumour necrosis factor-alpha and interleukin-1 (IL-1). These cytokines activate the complement and coagulation systems, release adhesion molecules, prostaglandins, leukotrienes, reactive oxygen species and nitric oxide. Other mediators involved in the sepsis syndrome include IL-1, -6 and -8; arachidonic acid metabolites; platelet activating factor; histamine; bradykinin; angiotensin; complement components and vasoactive intestinal peptide. These pro-inflammatory responses are counteracted by IL-10. Most of the trials targeting the different mediators of the pro-inflammatory response have failed due to a lack of correct definition of sepsis. Understanding the exact pathophysiology of the disease will enable more advanced treatment options. Targeting the coagulation system with various anticoagulant agents including, activated protein C, and tissue factor pathway inhibitor (TFPI) is a rational approach. Many clinical trials have been conducted to evaluate these agents in severe sepsis. While trials on antithrombin and TFPI were not so successful, the double-blind, placebo-controlled, Phase III trial of recombinant human activated Protein C Worldwide Evaluation in Severe Sepsis (PROWESS) was successful, creating a significant decrease in mortality when compared to the placebo group. A better understanding of the pathophysiologic mechanism of severe sepsis will provide better treatment options, and combination antithrombotic treatment may provide a multipronged approach for the treatment of severe sepsis.
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PMID:Antithrombotic agents in the treatment of severe sepsis. 1598 40

The endogenous plasma anticoagulant proteins tissue factor pathway inhibitor (TFPI) and antithrombin (AT) have both been extensively studied in large, multinational phase III clinical trials in patients with severe sepsis. The TFPI and AT trials failed to result in significant reductions in the 28-day, all-cause mortality rates in their respective study populations. However, there appear to be definable patient populations within each study that may have benefited from TFPI or AT. Drug-drug interactions and dosing issues were observed in both trials. The similarities and differences of each anticoagulant and the lessons learned from the recent phase III clinical trials are examined in this review.
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PMID:Tissue factor pathway inhibitor and antithrombin trial results. 1599 66

Bacterial porins enhance the thrombin activity upon chromogen substrate chromozym. Should porin-dependent enhancement of thrombin activity take place also upon fibrinogen in vivo, this might greatly increase the fibrin production which, in turn, might lead to blood vessel obstruction. In this study, we demonstrate fibrin hyperproduction in a simplified coagulative system, consisting of fibrinogen and thrombin-pure molecules, in the presence of bacterial porins. In particular, bacterial porins, in the presence of thrombin, significantly increased the fibrin production compared with thrombin alone. Also, fibrin hyperproduction took place even in the presence of the thrombin inhibitors antithrombin III (AT III) or alpha2 macroglobulin (alpha2M). However, the thrombin-fibrinogen reaction in the presence of AT III or alpha2M did not generate fibrin, unless porins were present. In conclusion, porins not only enhance thrombin activity but also inhibit the antithrombin activity exerted by AT III or alpha2M. We hypothesize that, because of porins activity, fibrin is largely generated due to thrombin hyperactivation. Moreover, further fibrin is produced by thrombin, which is not blocked by two serpins for the presence of porins. These results might be relevant as to the occurrence of disseminated intravascular coagulation in sepsis by gram-negative bacteria, which are known to produce porins.
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PMID:Hyperproduction of fibrin and inefficacy of antithrombin III and alpha2 macroglobulin in the presence of bacterial porins. 1604 46

Severe sepsis in children or adults may cause a life-threatening coagulopathy, with widespread consumption of activated protein C (APC); recombinant human APC (rhAPC) is a promising candidate anticoagulant treatment. We investigated the effects of rhAPC and other anticoagulants on coagulation triggered by adding small quantities of lipidated tissue factor to human umbilical-cord plasma in vitro. rhAPC, unfractionated heparin (UH), and melagatran (a direct thrombin inhibitor) were studied individually, and in combinations of rhAPC with either UH or melagatran. rhAPC alone dose-dependently prolonged the activated partial-thromboplastin time (aPTT) but not the prothrombin time (PT), and dose-dependently suppressed two indices of thrombin generation, namely prothrombin fragment F 1.2 (F 1.2) generation and thrombin-antithrombin (TAT) complex formation. UH alone dose-dependently prolonged the aPTT but not the PT, while melagatran alone dose-dependently prolonged both the aPTT and the PT. Adding either UH or melagatran dose-dependently augmented the capacity of rhAPC to suppress F 1.2 generation (with addition of UH showing a greater effect) and TAT formation (with addition of melagatran showing a greater effect). Both the capacity of UH to prolong the aPTT and the capacity of melagatran to prolong the aPTT and the PT were augmented by adding rhAPC. In our in-vitro study, adding either UH or melagatran augmented the capacity of rhAPC to suppress thrombin generation in human umbilical-cord plasma, with the anticoagulant effect of melagatran being more predictable than that of UH. Hence, combining rhAPC with melagatran might be a valuable therapeutic option in patients with severe sepsis.
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PMID:Additive effects of anticoagulants: recombinant human activated protein C and heparin or melagatran, in tissue factor-activated umbilical-cord plasma. 1611 86

Experimental studies in ischemia-reperfusion and sepsis indicate that activated protein C (APC) has direct anti-inflammatory effects at a cellular level. In vivo, however, the mechanisms of action have not been characterized thus far. Intravital multifluorescence microscopy represents an elegant way of studying the effect of APC on endotoxin-induced leukocyte-endothelial-cell interaction and nutritive capillary perfusion failure. These studies have clarified that APC effectively reduces leukocyte rolling and leukocyte firm adhesion in systemic endotoxemia. Protection from leukocytic inflammation is probably mediated by a modulation of adhesion molecule expression on the surface of leukocytes and endothelial cells. Of interest, the action of APC and antithrombin in endotoxin-induced leukocyte-endothelial-cell interaction differs in that APC inhibits both rolling and subsequent firm adhesion, whereas antithrombin exclusively reduces the firm adhesion step. The biological significance of this differential regulation of inflammation remains unclear, since both proteins are capable of reducing sepsis-induced capillary perfusion failure. To elucidate whether the action of APC and antithrombin is mediated by inhibition of thrombin, the specific thrombin inhibitor hirudin has been examined in a sepsis microcirculation model. Strikingly, hirudin was not capable of protecting from sepsis-induced microcirculatory dysfunction, but induced a further increase of leukocyte-endothelial-cell interactions and aggravated capillary perfusion failure when compared with nontreated controls. Thus, the action of APC on the microcirculatory level in systemic endotoxemia is unlikely to be caused by a thrombin inhibition-associated anticoagulatory action.
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PMID:Microcirculatory alterations in ischemia-reperfusion injury and sepsis: effects of activated protein C and thrombin inhibition. 1616 73

Disseminated intravascular coagulation is a frequent complication of sepsis. Coagulation activation, inhibition of fibrinolysis, and consumption of coagulation inhibitors lead to a procoagulant state resulting in inadequate fibrin removal and fibrin deposition in the microvasculature. As a consequence, microvascular thrombosis contributes to promotion of organ dysfunction. Recently, three randomized, double-blind, placebo-controlled trials investigated the efficacy of antithrombin, activated protein C (APC), and tissue factor pathway inhibitor, respectively, in sepsis patients. A significant reduction in mortality was demonstrated in the APC trial. In this article, we first discuss the physiology of coagulation and fibrinolysis activation. Then, the pathophysiology of coagulation activation, consumption of coagulation inhibitors, and the inhibition of fibrinolysis leading to a procoagulant state are described in more detail. Moreover, therapeutic concepts as well as the three randomized, double-blind, placebo-controlled studies are discussed.
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PMID:Disseminated intravascular coagulation in sepsis. 1623 64

As the pivotal phase III randomized controlled clinical trial on antithrombin concentrate in patients with severe sepsis did not show a beneficial effect of antithrombin treatment on 28-day mortality, the interest in the potential use of this treatment modality in sepsis has diminished. However, recent data on the effect of antithrombin administration on coagulation in combination with recent analyses from the clinical trials that were aimed to restore physiological anticoagulant pathways in patients with sepsis may revitalize the interest in antithrombin concentrate for the treatment of severe sepsis.
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PMID:Antithrombin in sepsis revisited. 1628 58

Endotoxemia is often associated with extreme inflammatory responses and disseminated intravascular coagulation. Protease-activated receptors (PARs) mediate cellular responses to coagulation proteases, including platelet activation and endothelial cell reactions predicted to promote inflammation. These observations suggested that PAR activation by coagulation proteases generated in the setting of endotoxemia might promote platelet activation, leukocyte-mediated endothelial injury, tissue damage, and death. Toward testing these hypotheses, we examined the effect of PAR deficiencies that ablate platelet and endothelial activation by coagulation proteases in a mouse endotoxemia model. Although coagulation was activated as measured by thrombin-antithrombin (TAT) production and antithrombin III (ATIII) depletion, Par1(-/-), Par2(-/-), Par4(-/-), Par2(-/-):Par4(-/-), and Par1(-/-):Par2(-/-) mice all failed to show improved survival or decreased cytokine responses after endotoxin challenge compared with wild type. Thus, our results fail to support a necessary role for PARs in linking coagulation to inflammation or death in this model. Interestingly, endotoxin-induced thrombocytopenia was not diminished in Par4(-/-) mice. Thus, a mechanism independent of platelet activation by thrombin was sufficient to cause thrombocytopenia in our model. These results raise the possibility that decreases in platelet count in the setting of sepsis may not be caused by disseminated intravascular coagulation but instead report on a sometimes parallel but independent process.
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PMID:Roles of protease-activated receptors in a mouse model of endotoxemia. 1643 93

In disseminated intravascular coagulation (DIC) there is extensive crosstalk between activation of inflammation and coagulation. Endogenous anticoagulatory pathways are downregulated by inflammation, thus decreasing the natural anti-inflammatory mechanisms that these pathways possess. Supportive strategies aimed at inhibiting activation of coagulation and inflammation may theoretically be justified and have been found to be beneficial in experimental and initial clinical studies. This review assembles the available experimental and clinical data on biological mechanisms of antithrombin in inflammatory coagulation activation. Preclinical research has demonstrated partial interference of heparin--administered even at low doses--with the therapeutic effects of antithrombin, and has confirmed--at the level of cellular mechanisms--a regulatory role for antithrombin in DIC. Against this biological background, re-analyses of data from randomized controlled trials of antithrombin in sepsis suggest that antithrombin has the potential to be developed further as a therapeutic agent in the treatment of DIC. Even though there is a lack of studies employing satisfactory methodology, the results of investigations conducted thus far into the mechanisms of action of antithrombin allow one to infer that there is biological plausibility in the value of this agent. Final assessment of the drug's effectiveness, however, must await the availability of positive, prospective, randomized and placebo-controlled studies.
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PMID:Clinical review: molecular mechanisms underlying the role of antithrombin in sepsis. 1654 81

A randomised, prospective, placebo-controlled phase III multicentre clinical trial (KyberSept) has been performed to test the efficacy of high-dose antithrombin therapy in patients with severe sepsis. Concomitant low-dose heparin has been routinely given in two thirds of patients for deep vein thrombosis prophylaxis. This study analyses heparin - antithrombin interactions in terms of long-term mortality, adverse events, and thromboembolic events. From a total of 2,314 patients with severe sepsis (placebo: n = 1,157; antithrombin: n = 1,157) 1,616 patients (placebo: 811, antithrombin: 805) received heparin concomitantly with study drug (antithrombin 30,000 IU) over four days, whereas 698 patients (346 and 352, respectively) did not. In patients with no concomitant heparin, 28-day mortality was lower with antithrombin than with placebo (37.8% vs. 43.6%; absolute reduction: 5.8%; risk ratio: 0.860 [0.725-1.019]), which increased until day-90 (44.9% vs. 52.5%; absolute reduction: 7.6%; risk ratio: 0.851 [0.735-0.987]). In patients with concomitant heparin, no effect of antithrombin on mortality was seen (28-day mortality: 39.4% vs. 36.6%; absolute increase: 2.8%; risk ratio: 1.08 [0.96-1.22]). Frequency of use of concomitant heparin increased during conduct of the study. Increased bleeding incidences were reported with antithrombin plus concomitant heparin as compared to antithrombin alone. Rates of thromboembolic events were similar when antithrombin was given with or without concomitant heparin. In the treatment of severe sepsis, high-dose antithrombin may sufficiently protect against development of venous thromboembolism when no concomitant heparin is given. Combined administration of the two increases bleeding risk and probably abolishes efficacy of antithrombin.
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PMID:Benefit/risk profile of high-dose antithrombin in patients with severe sepsis treated with and without concomitant heparin. 1667 61


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