Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined a low-molecular-weight factor-Xa inhibitor, KFA-1411 (3-[N-(3-amidinophenyl)-N-[N-[4-[1-(1-iminoethyl)piperidin-4- yl]phenyl]carbamoylmethyl]aminomethyl]phenoxyacetic acid monosulfonate-dihydrate). KFA-1411 selectively inhibited FXa among the serine proteases in the human blood-coagulation cascade with a Ki value of 1.73 nM, (selectivity ratio, 15000 versus its action on thrombin). The anticoagulant action of KFA-1411 in human plasma almost equaled that of the selective thrombin inhibitor, argatroban. KFA-1411 did not inhibit platelet aggregation at the concentration at which it showed an anticoagulant action. In contrast, argatroban, heparin, and low-molecular-weight heparin (LMWH; dalteparin) inhibited thrombin-induced platelet aggregation at concentrations lower than those needed for their anticoagulant actions. The FXa-inhibiting action of KFA-1411 differed among animal species, the maximum effect being seen in humans, followed by monkeys and rabbits, with rats and mice showing about one-tenth the potency seen in humans. A species variation was also observed among the values obtained for KFA-1411 in respect of anticoagulant activity in plasma (monkeys again being closest to humans). These results indicate that KFA-1411 may exhibit antithrombotic efficacy without an unwanted platelet-related action in the future treatment of various thrombotic diseases. The experimental model of monkeys is recommended for estimation of the clinical effects and safety of KFA-1411 in humans.
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PMID:Characteristics of the hemostatic action of KFA-1411, an inhibitor of coagulation factor Xa (FXa), in humans and various animals. 1269 82

Primary PCI is an effective reperfusion strategy for acute MI patients, which has evolved significantly in the last decade. While many adjunctive therapies have contributed to its success, substantial obstacles remain before optimal reperfusion can be achieved. Anti-platelet therapy with aspirin, clopidogrel and GP IIb/IIIa inhibitors reduces early ischemic complications, improves microvascular function and, potentially, affects the inflammatory response to ischemic injury. Current anti-thrombin therapy with UFH can be improved with LMWH, and, possibly with direct thrombin inhibitors. A number of important aspects of this strategy, though, need still to be elucidated. We need to optimize microvascular protection before and during PCI in order to capitalize on the myocardial sparing effects of reperfusion therapy. This will be probably achieved with a combination of pharmacological interventions and mechanical emboli protection devices. Improved and more targeted anti-inflammatory therapy should decrease the effects of neutrophil-related reperfusion injury, while a variety of metabolic interventions might preserve myocardial function during ischemia and after reperfusion.
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PMID:Adjunctive therapy for percutaneous revascularization in acute myocardial infarction. 1496 1

Enoxaparin (Lovenox; Roule-Poulenc Rorer, Inc.), a low molecular weight heparin (LMWH), is commonly used in the management of non-ST-segment elevation acute coronary syndromes (NSTE ACS) based on clinical trial outcomes. It is one of a group of glycosaminoglycan compounds that accelerate the inactivation of factor Xa by inducing a conformational change in antithrombin. In contrast to unfractionated heparin (UFH), LMWH have greater bioavailability, a more predictable anticoagulant response, longer half-life and a higher proportion of anti-factor Xa to anti-factor IIa activity. As a consequence, laboratory monitoring of the anticoagulant effect is typically unnecessary. Antithrombin therapy with LMWH or UFH has the highest-level recommendation (IA) in the 2002 professional guidelines for the management of unstable angina and non-ST-elevation myocardial infarction, where enoxaparin has a IIA recommendation over UFH unless early coronary artery bypass surgery is planned. In a recent systematic overview of > 20,000 patients with NSTE ACS from six clinical trials, including conservative and invasively managed patients, enoxaparin provided a statistically significant reduction in 30-day death or nonfatal myocardial infarction (MI) compared with UFH with no significant excess in transfusions, or major bleeding. These data support the role of enoxaparin as an anti-coagulant in patients with NSTE ACS.
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PMID:Clinical use of enoxaparin in the management of non-ST segment elevation acute coronary syndromes. 1595 76

Acute coronary syndromes are responsible for the deaths of tens of thousands of patients every year. Rupture of coronary atheromatous plaques with resultant luminal thrombosis is the cause in most cases. Although great steps forward have been taken in the management of acute myocardial infarction (MI) and unstable angina (UA), new therapeutic strategies are required to reduce further the incidence and risk of these events. At present, aspirin, nitrates and heparin are the conventional treatments for unstable angina. Aspirin, in combination with a thrombolytic agent or with percutaneous transluminal coronary angioplasty (PTCA), has been shown to be effective in reducing mortality in acute MI. Heparin is conventionally used in all PTCA procedures, whereas its efficacy in enhancing the therapeutic role of thrombolytic agents remains uncertain and may depend on the thrombolytic agent used. PTCA, which is also an effective therapy for stable angina, can be complicated by intimal dissection and thrombosis in a minority of cases, with vessel restenosis leading to recurrent symptoms in approximately 30% of cases. A number of new agents are being evaluated in both acute coronary syndromes and PTCA. These can be classified as adenosine diphosphate (ADP) receptor antagonists, Factor Xa inhibitors (low-molecular weight heparin [LMWH], direct thrombin inhibitors, new thrombolytic agents and glycoprotein IIb/IIIa receptor blockers. Of the latter, the most studied is abciximab, the Fab fragment of the chimeric monoclonal antibody, 7E3. This is a potent inhibitor of platelet aggregation. Four major clinical studies of PTCA in high-risk patients have demonstrated clear efficacy of abciximab in reducing acute ischaemic complications, mainly by reducing the frequency of MI and the need for repeat revascularisation. Unlike other glycoprotein IIb/IIIa receptor blockers, both short- and long-term efficacy have been demonstrated. Its impact on the rate of restenosis after PTCA is unclear. Abciximab's role in an era of intracoronary stent implantation is undergoing further study (with encouraging early results). Its role in other situations, such as the early (non-angioplasty) management of unstable angina and its ability to enhance the efficacy of thrombolytic agents, is under active investigation.
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PMID:Abciximab (Reopro): a clinically effective glycoprotein IIb/IIIa receptor blocker. 1599 12

Right heart assist (RHA) was used for coronary artery bypass grafting (CABG). We explored the affection of the coagulation system during surgery and evaluated two different antithrombotic treatments postoperatively. The pilot study comprised 14 patients. During surgery activated clotting time (ACT) was kept > 200 sec. By random the patients were selected to different postoperative treatments. The control group received acetyl salicylic acid (ASA) 150 mg daily, the intervention group received ASA 150 mg daily and Low Molecular Weight Heparin (LMWH) 5000 IU x2 for three days. Serum levels of prothrombin fragment 1 and 2 (F 1 + 2), plasmin-antiplasmin product (PAP), anti-Xa activity and functional antithrombin (ATIII) were measured. During surgery there was no increase of F 1 + 2 or PAP. After protamin was administered there was a significant increase of F 1 + 2 but not in PAP during the next 6 hours. Postoperative antithrombotic treatment with LMWH seems to normalise F1 + 2 while ASA does not. ACT level > 200 sec. seems sufficient for RHA-CABG surgery. Fibrinolytic agents are not necessary. It seems that postoperative LMWH treatment prevents increased thrombin formation. General recommendations with respect to antithrombotic treatment beyond ASA can not be made based on study.
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PMID:Postoperative treatment with low molecular weight heparin after right heart assist for coronary artery bypass grafting. 1626 1

During coronary angioplasty, the association of platelet inhibitors and antithrombin agents is required to prevent myocardial infarction. Bivalirudine, a synthetic direct thrombin inhibitor, has been widely validated in this context and has shown its efficacy and safety in several comparative studies. It is officially recommended as a replacement of NFH and LMWH associated or not with anti-GPIIb/IIIa agents because at comparable efficacy it causes fewer bleeding complications. In acute coronary syndromes without ST elevation, anti GPIIb/IIIa agents reduce angioplasty-related complications and mortality, especially in high risk patients in salvage situations. In the REPLACE-2 trial the clinical efficacy of bivalirudine (associated only when necessary with anti-GPIIb/IIIa agents) was no less than that of NFH associated systematically with anti-GPIIb/IIIa agents at the time of intervention. The incidents of serious adverse events at 30 days (death, infarctus, emergency revascularisation, major bleeding) in the bivalirudine group was 9.2% versus 10.2% in the NFH group. In a retrospective analysis, these results did not seem to be influenced by the prior administration of clopidogrel. Finally, the one year follow-up results showed a lower mortality in patients treated with bivalirudine (1.9% versus 2.5%), essentially in the high risk sub-groups such as the elderly, the diabetic or the renal failure patients. Clinical trials are underway (ACUITY) to study the interaction of anti GPIIb/IIIa agents with bivalirudine in the first hours of acute coronary syndromes and should confirm a major role of direct anti-thrombin drugs in the safety of angioplasty.
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PMID:[Direct thrombin inhibitors in coronary angioplasty. Value of bivalirudin ]. 1655 38

Anticoagulation may be difficult to implement in patients suffering from chronic renal failure on account of platelet disorders and impaired clearance of some anticoagulant drugs. Although no adjustment of heparin and coumarin dosage is necessary, more frequent testing of coagulation pathways may be required when these drugs are used in patients with renal failure. Long-term use of LMWH should be implemented cautiously with regular testing of anti-factor Xa activity and a half-dose may be advocated in patients with a creatinine clearance < 30 ml/mn. Danaparoid and thrombin inhibitors should be used mainly in patients suffering from renal failure and heparin-induced thrombocytopenia with regular monitoring of coagulation tests.
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PMID:[Anticoagulation in patients with chronic renal failure]. 1656 2

Progression of human malignancies is accompanied by vascular events, such as formation and remodeling of blood vessels and systemic coagulopathy. Though long appreciated as comorbidity of cancer (Trousseau syndrome), vascular involvement is increasingly recognized as a central pathogenetic mechanism of tumor growth, invasion and metastasis. The major outstanding question in relation to this role has been, whether vascular perturbations are simply a reaction to the conditions of the tumor microenvironment, or are linked to the known genetic lesions causal for the onset and progression of malignancy. In this regard, we have previously hypothesized, and recently demonstrated experimentally that deregulation of certain hemostatic mechanisms, namely upregulation of tissue factor (TF) and possibly other changes (e.g. expression of thrombin receptor - PAR-1) are controlled by cancer-associated oncogenic events, such as activation of K-ras, epidermal growth factor receptor (EGFR), or inactivation of the p53 tumor suppressor gene in various human cancer cells. It appears that these respective transforming alterations exert their impact on both, cell-associated and soluble/circulating (microvesicle- associated) TF, i.e. may cause a systemic hypercoagulable state. Other genes, which more recently emerged as regulators of cancer coagulopathy include: PML-RARalpha, PTEN, and MET. While the spectrum of procoagulant targets of these genes may vary somewhat it includes: TF, PAI-1, COX-2 and possibly other hemostatic proteins. It is noteworthy that these prothrombotic changes may impact the malignant process directly (e.g. stimulate angiogenesis, tumor growth or metastasis) as a consequence of both coagulation-dependent and -independent effects. The latter are mostly related to cellular signaling events and changes in gene expression which are now known to be induced by the TF/FVIIa/Xa complex, thrombin and PARs, expressed on the surface of cancer cells, as well as tumor-associated endothelium. Interestingly, certain anticoagulants possess antimetastatic and anticancer properties (e.g. LMWH), an observation that further suggests that hypercoagulability may act as an effector mechanism of genetically driven tumor progression. Conversely, we suggest that oncogene-directed (targeted) anticancer agents could, at least in some cases, ameliorate not only cellular transformation itself, but also some of the chronic components of the cancer-related coagulopathy, something that may be relevant to therapeutic efficacy of these drugs. We also postulate that since TF is the oncogene target, circulating TF (microparticles) could serve as surrogate marker of the biological activity oncogene-directed agents exert in vivo. Thus, both genetic and epigenetic factors appear to conspire to activate various components of the hemostatic system in cancer patients, both locally and systemically. These activities act as mediators of cancer coagulopathy, angiogenesis, metastasis and other events involved in disease progression and should be recognized in designing better anticancer therapies.
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PMID:Genetic determinants of cancer coagulopathy, angiogenesis and disease progression. 1663 63

The currently available brand-name low-molecular-weight heparins (LMWHs) in the United States include dalteparin (Pfizer), enoxaparin (Aventis), and tinzaparin (Pharmion). Other products available, in Europe, include certoparin (Novartis), reviparin (Abbott), nadroparin (GlaxoSmithkline), and parnaparin (Alpha-Wasserman). Each of these LMWHs has a characteristic molecular weight profile and biological activity in terms of an anti-FXa and anti-FIIa potency. The mean molecular weight of these drugs ranges from 4.0 kDa to 7.0 kDa and the anti-FXa:anti-FIIa ratio ranges from 1.5 to 3.5. These agents may also be characterized by the presence of specific chemical end groups such as 2-O-sulfo-4-enepyranosuronic acid at the nonreducing terminus (enoxaparin) or 2,5-anhydro-D-mannose at the reducing terminus (dalteparin). Further, the component oligosaccharide chains exhibit product-specific distribution profiles. It is now widely accepted that individual LMWHs are chemically unique agents and cannot be interchanged therapeutically. Each commercial LMWH has been individually developed for specific clinical indications, which are dose and product dependent. Recently, several generic LMWHs have become available in India (Cutenox and Markaparin) and South America (dilutol, clenox, dripanina), and three companies have filed for regulatory approval of a generic version of enoxaparin in the United States. As the primary aim of a generic drug is to reduce cost without compromising patient care, a generic drug is required to be chemically and biologically equivalent to the pioneer drug. Because LMWHs represent complex natural mucopolysaccharide drugs that have undergone chemical and enzymatic modifications, physicochemical and biological information in addition to molecular weight and anti-FXa:anti-FIIa ratio should be used to determine generic equivalency to the branded drug. We have utilized a previously reported approach to systematically compare three generic versions of enoxaparin obtained from India and Brazil with the branded enoxaparin (Lovenox) available in the United States. Testing included molecular and structural profiling, evaluation in clot-based and amidolytic anti-FXa and anti-FIIa assays, and heparinase-I digestion profiles. While the molecular profiles (4.8 +/- 1.8 kD) and anticoagulant potencies as determined by activated partial thromboplastin time (APTT) were comparable for all four agents, the generic products showed variations in the thrombin time (TT) and Heptest assays. Two generic and the branded enoxaparin were readily digested by heparinase-I, losing most of their anticoagulant activity, but one generic product resisted digestion. This may have been due to a unique structural feature in this product. These studies show that, while generic LMWHs may exhibit acceptable molecular weight and anti-FXa profiles, they can exhibit assay-based differences and digestion profiles. Testing in animal models to determine safety, efficacy, and pharmacodynamic parameters may be important to verify equivalence. In order to assure that the generic LMWHs are equivalent to branded LMWHs such that equivalent clinical results are obtained, there is a need to develop clear stepwise guidelines that will establish equivalency in terms of physical, chemical, biochemical, pharmacokinetic, and pharmacodynamic properties for these anticoagulant drugs.
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PMID:Product individuality of commercially available low-molecular-weight heparins and their generic versions: therapeutic implications. 1695 78

Clinical examples of coagulation abnormalities may occur from single or multiple abnormailties and include both inherited and acquired defects. Risk factors that further increase clotting include obesity, recent surgery, pregnancy and cancer. Venous thrombosis is a common complication in patients with malignant diseases. The estimates of the prevalence of cancer among patients with venous thrombosis vary from 3 to 18%. Since cancer is a common disorder in the aging population, it may be responsible for a considerable proportion of all cases of thrombosis. The pathogenic mechanisms of thrombosis in the cancer patient involve a complex interaction between the tumor cell, the patient, and the hemostatic system. These include activation of the coagulation system, platelet activation, endothelial damage, indwelling venous access devices, direct effects of chemotherapy/hormonal therapy, and host inflammatory responses. Furthermore, local peritumoral activation of coagulation may have important effects on the biology of cancer. In recent years there have been many new developments in understanding basic mechanisms and optimizing clinical care of thrombosis in cancer patients. Subcutaneous low-molecular weight heparin LMWH) has replaced intravenous unfractionated heparin (UFH) for the initial treatment of thrombosis. In the search for new agents matching the "ideal" anticoagulant profile, a number of different steps in the coagulation cascade have been targeted, including direct thrombin inhibition, and inhibition of factor Xa, factor IXa, the factor VIIa-tissue factor complex and the factor Va-factor VIIIa complex. Such agents could potentially improve thrombosis magement in cancer patients.
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PMID:Cancer and venous thromboembolism. 1735 4


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