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)

The systemic inflammation associated to the simultaneous activation of blood coagulation and the alterated blood fibrinolysis, leads to microvascular endothelial injury, acute organ dysfunction and possibly death. Activated Protein C, a natural, multifunctional protein, has demonstrated antithrombotic, anti-inflammatory, and profibrinolitic properties and may be an important modulator of the vicious cycle whereby inflammation initiates coagulation and coagulation amplifies inflammation. Protein C couples with its receptor, EPCR (endothelial-cell protein-C receptor), and the ligand-receptor complex then interact with thrombin-thrombomodulin on endothelial surface to produce activated protein C (APC). Once activated, protein C then interact with its cofactor, protein S, to catalyze the inactivation of factors Va and VIIILa, two important accelerators of the clotting cascade, reducing thrombin generation and microvascular thrombosis. In addiction to its anticoagulant activity APC promotes profibrinolytic activity through the inhibition of plasminogen activator inhibitor-1, which is upregulated during inflammation. Inhibition of thrombin generation by APC decreases inflammation by inhibiting platelet activation, neutrophil recruitment, and mast-cell degranulation. APC also shows direct antiinflammatory properties, including blocking of cytokines production by monocytes and blocking cell adhesion. Moreover, APC has antiapoptotic properties that may contribute to its efficacy. In conclusion, APC, besides its physiologic role in the coagulation cascade, plays a key role in the pathophysiology of systemic inflammation justifying its potential therapeutic role in sepsis and systemic inflammatory responses.
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PMID:[The numerous properties of the anticoagulant protein C]. 1756 22

Meningococcal disease may present as sepsis, meningitis or a combination of both. Protein C (PC) is an important regulator of thrombin activity. Two polymorphisms in the promoter region of PC (C-1654T, A-1641G) have been shown to affect PC levels. In patients with meningococcal sepsis, low PC levels have been correlated with increased severity and poor outcome. We established a multicenter case-control study to determine whether PC promoter polymorphisms are associated with occurrence and outcome of meningococcal disease and sepsis. 288 previously healthy children with meningococcal infection from 97 pediatric hospitals in Germany, Switzerland, Italy, and Austria and 309 healthy controls were included in the study. A strong age-dependant effect was found. Patients younger than 1 year carried significantly more often the CG-CG genotype than healthy controls (28.6% vs. 17.8%, P = 0.04). Carriers of the CG allele showed a 3.43-fold increased odds ratio (OR) to develop sepsis (95% CI: 1.05-11.20; 85.7% vs. 63.6%, P = 0.036). The TA-TA genotype conferred a protective role for the development of sepsis (P = 0.017) with a Haldane OR of 0.09 (95% CI: 0.01-0.94). Systolic blood pressure values were significantly decreased in patients carrying the CG-CG genotype (70 vs. 86 mmHg, P = 0.005), and the need for adrenergic support significantly higher (70% vs. 26%, P = 0.018), resulting in an OR of 6.61 (95% CI: 1.28-34.14). These findings show that in young children PC promoter genotype is associated with susceptibility for meningococcal disease, the development of meningococcal sepsis, lower blood pressure, and need for adrenergic support.
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PMID:Protein C promoter polymorphisms associate with sepsis in children with systemic meningococcemia. 1756 89

Protein C is a vitamin K-dependent plasma protein zymogen whose genetic mild or severe deficiencies are linked with risk for venous thrombosis or neonatal purpura fulminans, respectively. Studies over past decades showed that activated protein C (APC) inactivates factors (F) Va and VIIIa to down-regulate thrombin generation. More recent basic and preclinical research on APC has characterized the direct cytoprotective effects of APC that involve gene expression profile alterations, anti-inflammatory and anti-apoptotic activities and endothelial barrier stabilization. These actions generally require endothelial cell protein C receptor (EPCR) and protease activated receptor-1. Because of these direct cytoprotective actions, APC reduces mortality in murine endotoxemia and severe sepsis models and provides neuroprotective benefits in murine ischemic stroke models. Furthermore, APC reduces mortality in patients with severe sepsis (PROWESS clinical trial). Although much remains to be clarified about mechanisms for APC's direct effects on various cell types, it is clear that APC's molecular features that determine its antithrombotic action are partially distinct from those providing cytoprotective actions because we have engineered recombinant APC variants with selective reduction or retention of either anticoagulant or cytoprotective activities. Such APC variants can provide relatively enhanced levels of either cytoprotective or anticoagulant activities for various therapeutic applications. We speculate that APC variants with reduced anticoagulant action but normal cytoprotective actions hold the promise of reducing bleeding risk because of attenuated anticoagulant activity while reducing mortality based on direct cytoprotective effects on cells.
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PMID:Activated protein C. 1763 13

Acute kidney injury (AKI) is common in critically ill patients with severe sepsis (SS), and the predictors of AKI in this population have not been well characterized. The study group was the placebo group of the Prospective Recombinant Human Activated Protein C Worldwide Evaluation in Severe Sepsis (PROWESS) data set. PROWESS is a prospective, randomized, controlled study of the use of drotrecogin alpha (activated) for the treatment of SS. Placebo patients who had an admission renal sepsis organ failure score of 2 or more were excluded. AKI was defined as an increase in serum creatinine of 25% or 0.3 mg/dl during the first week postbaseline. The incidence of relevant parameters was then compared in patients with and without AKI. Half of the patients were randomly assigned to a model-building data set, and multivariable Cox regression was used to determine risk factors. Factors that remained significant in the remaining "model validation" data set were considered significant. Of the 840 patients in the placebo group, 547 met inclusion criteria. Of the 547 patients, 127 (23.2%) patients met criteria for AKI. The mean age of the 547 patients was 59.8 +/- 17.0, and 43.3% of the cohort were female. The ethnicity breakdown was as follows: White 83.2%, black 5.9%, and other 11%. Univariate analyses indicated that patients with AKI had a higher incidence of a dependence on the basis of activity of daily living scale (38.6 versus 26.7%; P = 0.01), a lower baseline platelet count (193,000 versus 222,000; P = 0.02), a higher baseline respiratory Sepsis Organ Failure Assessment score (2.9 versus 2.7; P = 0.02), higher preinfusion Acute Physiology and Chronic Health Evaluation II (APACHE II) score (24.8 versus 22.0; P = 0.0002), older age (63.7 versus 58.7 yr; P = 0.008), and higher log IL-6 (6.6 versus 5.8; P = 0.0006). In a multivariable Cox regression, the predictors of AKI were log IL-6 (P < 0.0001) and APACHE II (P = 0.0008). Increased log IL-6 and APACHE II score are significant risk factors of AKI in patients with SS. IL-6 data and the absence of correlation with measures of hypotension (e.g., mean arterial pressure, dosage of vasopressors) support the notion that inflammation is a significant component of AKI in SS.
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PMID:Elevated plasma concentrations of IL-6 and elevated APACHE II score predict acute kidney injury in patients with severe sepsis. 1769 83

Approximately one-third of cases of severe sepsis result in death. Endogenous activated protein C (APC) plays a key role in the regulation of the inflammation, fibrinolysis and coagulation associated with severe sepsis. In a recently published phase III trial, Protein C Worldwide Evaluation in Severe Sepsis (PROWESS), intravenous administration of recombinant human APC (rhAPC) 24 mug/kg/h for 96 h to patients with severe sepsis resulted in a 6.1% reduction in absolute mortality and a 19.4% reduction in the relative risk of death from any cause within 28 days (number needed to treat = 16). This dose is now being applied in clinical practice.rhAPC is recommended for the treatment of severe sepsis (sepsis associated with acute organ dysfunction) occurring as a result of all types of infection (Gram-negative bacterial, Gram-positive bacterial and fungal). A panel of Canadian clinicians experienced in the treatment of severe sepsis and the management of critical care patients has developed this consensus document to assist clinicians in appropriate patient selection and management of potential challenges associated with rhAPC therapy.
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PMID:Guidance on patient identification and administration of recombinant human activated protein C for the treatment of severe sepsis. 1815 13

The predictive value of plasma protein C level in sepsis has been demonstrated in a number of studies in which depressed protein C levels were associated with increased likelihood of negative outcome. Data from the PROWESS (Recombinant Human Activated Protein C Worldwide Evaluation in Severe Sepsis) trial indicate that administration of drotrecogin alfa (activated; DrotAA) leads to an increase in endogenous protein C levels in severe sepsis patients. In a group as heterogeneous as sepsis patients, the currently approved dose and duration of administration (24 mug/kg per hour for 96 hours) might not be optimal in some individuals. The RESPOND (Research Evaluating Serial Protein C levels in severe sepsis patients ON Drotrecogin alfa [activated]) trial is a phase II study being conducted to explore the use of endogenous protein C level as both a biomarker and a steering parameter for administration of DrotAA. Eligible patients will receive DrotAA either at the normal, currently approved dose and duration of administration ('standard therapy') or at a higher dose with variable infusion duration or variable infusion duration only ('alternative therapy'). The duration of DrotAA infusion in the alternative therapy arm depends on the individual response in terms of sustained increase in endogenous protein C. The ultimate aims of this and potential following studies are as follows: to establish serial plasma protein C measurement as a biomarker that will aid in the identification of severe sepsis patients who are most likely to benefit from DrotAA therapy, to enable adjustment of DrotAA therapy in individual patients (specifically, the possibility to use a higher dose and to adjust the infusion duration), and to provide guidance to the clinician regarding whether the patient is responding to DrotAA.
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PMID:The protein C pathway: implications for the design of the RESPOND study. 1826 91

Drotecogin alfa (activated; DrotAA) was approved in 2001 by the US Food and Drug Administration for the treatment of patients with severe sepsis who are at high risk for death. The European Agency for the Evaluation of Medical Products also recommended that DrotAA could be administered to patients with severe sepsis and multiple organ dysfunction when added to the best standard care. Following the initial publication of the PROWESS (Protein C Worldwide Evaluation in Severe Sepsis) findings, multiple subgroup analyses supported the need for additional studies to explore the various hypotheses raised by this study. This review discusses all large clinical trials exploring the efficacy and safety of DrotAA and proposes recommendations for the use of DrotAA in severe sepsis.
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PMID:Clinical trials in severe sepsis with drotrecogin alfa (activated). 1826 92

Sepsis is a common clinical problem that is responsible for an increasing number of deaths. Many new therapies for severe sepsis have been developed but few have shown benefit in rigorous clinical trials. To date the most successful therapies are relatively simple clinical interventions: appropriate broad spectrum antibiotics; early goal directed therapies to restore tissue oxygen delivery; physiological dose hydrocortisone in patients with relative adrenal insufficiency; intensive insulin therapy to maintain normoglycemia; and lung-protective ventilation strategies. The only adjunctive therapy supported by strong evidence of benefit is Activated Protein C. Experimental therapies are being developed with improved in vitro and animal models and better understanding of the pathophysiology of sepsis in humans. Neutralization of the triggers of inflammation, such as endotoxin, and inhibition of the signal transduction mechanisms are promising new strategies. Statins may be beneficial in prevention of sepsis and as adjunctive treatments. Reconstitution of the immune response with interferon-gamma or granulocyte-macrophage colony stimulating factor may reverse immunoparesis in severe sepsis. Many other molecular targets have been identified for possible therapeutic intervention, but there are still fundamental difficulties to be overcome in demonstrating efficacy in clinical trials.
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PMID:New therapies for sepsis. 1847 86

The protein C pathway has an important function in regulating and modulating blood coagulation and ensuring patency of the microcirculation. Protein C deficiency leads to macro- or microvascular thrombosis. Hereditary severe protein C deficiency is a life-threatening state with neonatal purpura fulminans. Patients with heterozygous protein C deficiency have an increased risk for thromboembolic events or coumarin-induced skin necrosis. Secondary protein C deficiency occurs during disseminated intravascular coagulation (DIC), sepsis (especially meningococcal sepsis with purpura fulminans), liver failure and vitamin K deficiency. Replacement with protein C concentrates is an established treatment for congenital protein C deficiency. The high-purity, plasma-derived protein C concentrate Ceprotin (Baxter AG, Vienna, Austria) is approved for this indication, but its use in acquired deficiency states is not approved. Several case series demonstrated beneficial effects in infectious purpura fulminans and DIC, but no controlled studies for these indications exist. Protein C concentrate may therefore be given off-label in such cases. Protein C concentrate has an excellent safety profile: no drug interactions, overdose or bloodborne infections, bleeding or prothrombotic complications have been observed. As with all protein preparations, a potential risk of hypersensitivity reactions exists.
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PMID:Human protein C concentrates for replacement therapy in congenital and acquired protein C deficiency. 1859 97

Drotrecogin alfa (activated) (DrotAA) has been approved for therapy of severe sepsis and septic shock for 7 years, but controversy persists regarding efficacy and safety. Only a single randomized, controlled trial (Recombinant Human Activated Protein C Worldwide Evaluation in Severe Sepsis; PROWESS) has shown evidence of efficacy, and the risk of complications (especially hemorrhage) is recognized. Moreover, subsequent prospective studies (albeit in children and lower-risk adult patient populations) have been nonconfirmatory. Opinion is polarized whether DrotAA is effective and should be used. Safety data are not in dispute (DrotAA therapy increases risk of bleeding complications), but controversy exists regarding efficacy, the ethics of marketing the drug, and the design and conduct of current and future trials designed to resolve efficacy questions. DrotAA is approved therapy in the United States, the European Union, and many other countries, and clinicians should keep the drug in their armamentarium, balancing risk and benefit, for therapy of patients with severe sepsis or septic shock who are at high risk of death until the controversy is resolved by randomized, prospective trials now in progress.
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PMID:Current role of activated protein C therapy for severe sepsis and septic shock. 1868


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