UMLS:C0149871 - FACTA Search

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Query: UMLS:C0149871 (deep vein thrombosis)
12,364 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Low-molecular-weight and unfractionated heparins are frequently used to treat venous thromboembolism, but it is not known whether they are equally effective in inhibiting in vivo generation of thrombin. In this multicenter trial, 1048 patients were randomized to intravenous unfractionated heparin (group A), twice daily low-molecular-weight heparin (reviparin) for 1 week (group B), or once daily reviparin for 4 weeks (group C). All patients received vitamin K antagonists. Blood samples withdrawn at the baseline and at weeks 1 and 3 were analyzed using markers of in vivo thrombin generation and other coagulation parameters. During the first 3 weeks symptomatic recurrent deep vein thrombosis-pulmonary embolism (DVT/PE) occurred in 17 (4.5%) of 375 patients in group A compared with 4 (1.0%) of 388 patients in group B, and 9 (2.4%) of 374 patients in group C. Forty percent of patients in group A, 53.4% in group B, and 53.5% in group C showed 30% or greater reduction in thrombus size assessed by venography. Patients in group B had significantly greater reduction in D-dimer, prothrombin fragments 1 and 2 (F1 + 2), endogenous thrombin potential (ETP), and thrombin-antithrombin (TAT) complexes compared to groups A and C. Greater release of tissue factor pathway inhibitor (TFPI) and reduction in levels of thrombin activatable fibrinolysis inhibitor (TAFI) and fibrinogen were significantly more pronounced in group C patients. Reviparin administered twice daily plus vitamin K antagonist is more effective in inhibiting in vivo thrombin generation compared to intravenous unfractionated heparin plus vitamin K antagonist, and reviparin once daily produced significantly higher TFPI release and greater reduction in TAFI and fibrinogen levels.
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PMID:Randomized trial of different regimens of heparins and in vivo thrombin generation in acute deep vein thrombosis. 1187 67

Many cancer patients reportedly have a hypercoagulable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) interferes with various processes involved in tumor growth and metastasis. These processes might include fibrin formation, binding of heparin to angiogenic growth factors such as basic fibroblast growth factor and vascular endothelial growth factor, modulation of tissue factor, and other mechanisms. Clinical trials have indicated a clinically relevant effect of LMWH as compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Recent studies from our laboratory defined the role of an LMWH (tinzaparin), warfarin, anti-factor VIIa, and recombinant tissue factor pathway inhibitor in the modulation of angiogenesis, tumor growth, and tumor metastasis.
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PMID:Anticoagulants in thrombosis and cancer: the missing link. 1188 25

Many cancer patients reportedly have hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy on the coagulation cascade. A number of retrospective studies showed that cancer patients are at higher risk of developing venous thromboembolism. In addition to the pathological mechanisms associated with tumor-mediated increase in thrombotic events, cancer therapies including chemotherapy, immobilization, cancer surgery and the use of central venous catheters contribute toward a hypercoaguable state and are therefore independent risk factors of venous thromboembolism in cancer patients. Studies have demonstrated that unfractionated heparin or low molecular weight heparin (LMWH) interferes with various processes involved in tumor growth and metastasis. These processes might include fibrin formation, binding of heparin to angiogenic growth factors--such as basic fibroblast growth factor and VEGF--modulation of tissue factor, release of tissue factor pathway inhibitor and other mechanisms. Clinical trials have suggested an improved efficacy of LMWH, as compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Recent studies from our laboratory defined the role of the LMWH (tinzaparin), warfarin, antifactor VIIa and recombinant tissue factor pathway inhibitor in the modulation of angiogenesis, tumor growth and tumor metastasis.
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PMID:Anticoagulants in thrombosis and cancer: the missing link. 1211 44

Bemiparin sodium (Hibor, Ivor, Zivor, Badyket, Laboratorios Farmaceuticos Rovi SA) is a new second-generation low molecular weight heparin (LMWH). Bemiparin has the lowest mean molecular weight (3600 Da), the longest half-life (5.3 h) and the largest antifactor Xa:antifactor IIa ratio (8:1) of all LMWHs. Bemiparin promotes a greater release of tissue factor pathway inhibitor than unfractionated heparin (UFH) or dalteparin. These properties could result in a more favourable efficacy:safety ratio than the currently marketed LMWHs. Bemiparin 2500 IU/day was as effective as UFH for preventing venous thromboembolism (VTE) in moderate risk abdominal surgery. Bemiparin 3500 IU/day significantly reduced VTE compared to UFH in high-risk hip replacement surgery. Bemiparin 3500 IU/day started postoperatively was as effective as enoxaparin 4000 IU/day started preoperatively in total knee arthroplasty, with a trend towards a lower rate of proximal deep vein thrombosis (DVT), pulmonary embolism and symptomatic VTE. In patients with acute DVT, bemiparin was more effective than UFH in thrombus mass reduction and at least as effective as UFH for the prevention of clinical recurrence. Bemiparin was as effective as UFH for clot prevention during haemodialysis. The use of bemiparin was associated with a lower incidence of major and minor bleeding as compared to UFH in abdominal surgery. When compared with enoxaparin in orthopaedic surgery, a lower rate of complications at injection site was observed.
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PMID:Review of bemiparin sodium--a new second-generation low molecular weight heparin and its applications in venous thromboembolism. 1294 85

Venous thromboembolic disease, including deep vein thrombosis and pulmonary embolism, is a cause of significant mortality and morbidity. In the US, approximately 260000 cases are diagnosed annually. Current drugs for the prevention and treatment of venous thromboembolism (VTE) include heparin, low-molecular-weight heparins and warfarin. Since they possess several disadvantages, researchers are investigating improved anticoagulants. To understand how any promising anticoagulant would work, a review of the pathophysiology and regulation of the coagulation cascade is provided. The more prominent drugs reviewed include tissue factor pathway inhibitor protein, nematode anticoagulant protein, Factor IX inhibitors, anti-Factor Xa inhibitors (DX-9065a (Daiichi Seiyaku Co Ltd), YM-60828 (Yamanouchi Pharmaceutical Co Ltd), fondaparinux, idraparinux (Sanofi-Synthelabo/NV Organon)), selective thrombin inhibitors (oral heparin, ximelagatran (AstraZeneca plc)) and enhancers of natural anticoagulants (activated protein C, ART-123 (Asahi Kasei Pharma Corp)).
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PMID:New anticoagulants for venous thromboembolic disease. 1473 Apr 67

Many cancer patients reportedly are in a hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy or radiotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) interfere with various processes involved in tumor growth and metastasis. These include fibrin formation, binding of heparin to angiogenic growth factors such as basic fibroblast growth factor and vascular endothelial growth factor, modulation of tissue factor and, perhaps, other more important modulatory mechanisms such as enhanced tissue factor pathway inhibitor (TFPI) release and inhibition of various matrix-degrading enzymes. Clinical trials have suggested a clinically relevant effect of LMWH, compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Studies from our laboratory demonstrated a significant role for LMWH, warfarin, anti-VIIa and LMWH-releasable TFPI on the regulation of angiogenesis, tumor growth, and tumor metastasis. Thus, modulation of tissue factor/VIIa noncoagulant activities by LMWH, warfarin, anti-VIIa or TFPI might be a useful therapeutic option for the inhibition of angiogenesis associated with human tumor growth and metastasis.
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PMID:Antithrombotics in thrombosis and cancer. 1503 Feb 87

Venous thromboembolism (VTE) is a recognized complication of malignant disease and multiple risk factors contribute to the hypercoagulability that commonly accompanies malignancy. Thromboprophylaxis with antithrombotic drugs such as the low-molecular-weight heparins (LMWHs) can be used to control the hypercoagulable state and to reduce the incidence of VTE in patients with cancer. Clinical and biochemical data suggest that LMWHs may also inhibit tumor growth, leading to a survival benefit in these patients. Many cancer patients reportedly have a hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy or radiotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or its low-molecular-weight fractions interfere with various processes involved in tumor growth and metastasis. Clinical trials in cancer patients with thromboembolic disorders have suggested a clinically relevant effect of LMWHs (as compared with UFH) on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated in certain tumor types. Studies from our laboratory demonstrated a significant role for LMWH, warfarin, anti-VIIa, and LMWH releasable tissue factor pathway inhibitor on the regulation of angiogenesis, tumor growth, and tumor metastasis. However, a direct anticancer effect for heparin in cancer patients without thrombosis still remains to be clinically documented.
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PMID:Low-molecular-weight heparin in thrombosis and cancer. 1508 63

Like unfractionated heparin (UFH), low-molecular-weight heparins (LMWHs) are polypharmacologic agents that can modulate the hemostatic system at multiple points. Thus, to select an optimal dose of LMWH for a given indication, it is necessary to consider multiple actions of the drug. In this study, nonhuman primates were treated with intravenous or subcutaneous boluses of the LMWH tinzaparin or UFH. Doses were selected on the basis of the expected prophylactic (75 U/kg) and therapeutic (175 U/kg) dosing of tinzaparin. Blood samples were drawn periodically up to 24 hours after administration. Circulating anti-Xa and anti-thrombin (anti-IIa) activities determined using amidolytic assays were used to estimate plasma tinzaparin (heparin) concentrations. In addition, total tissue factor pathway inhibitor (TFPI) levels were measured in these primates. Subcutaneous administration of 75 U/kg tinzaparin resulted in plasma levels of approximately 0.2 to 0.3 U/mL, concentrations sufficient for DVT prophylaxis. Such drug levels were not associated with a significant release of TFPI. Intravenous administration of the same dose resulted in a peak drug level of approximately 1.5 anti-Xa U/mL. The elimination half-life was approximately 1 hour. Thus, intravenously administered tinzaparin may be useful for providing anticoagulation during coronary interventions. Subcutaneous administration of 175 U/kg resulted in tinzaparin levels of approximately 0.7 anti-Xa U/mL and a significant increase in TFPI levels. Interestingly, the increase in TFPI levels occurred over a different time frame than anticoagulant activity. Intravenous administration of 175 U/kg resulted in peak drug concentrations of almost 5 anti-Xa U/mL. The pharmacokinetic behavior of intravenously administered tinzaparin was comparable to that of UFH. The data show that the pharmacokinetic and pharmacodynamic effects measured using different assays widely differ. For a proper pharmacodynamic analysis, multiple assays should be considered, given that both UFH and LMWHs are polycomponent in nature.
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PMID:Pharmacodynamic considerations in the selection of dosage of tinzaparin for various indications: experimental studies in primates. 1508 65

Tinzaparin at two dosages, 175 anti-Xa U/kg subcutaneously administered for 7 days, followed by warfarin, and 175 anti-Xa U/kg subcutaneously given for 90 days was compared with continuous intravenous unfractionated heparin (UFH) for 5 days, followed by warfarin for 3 months, were tested in the treatment of patients with proximal deep vein thrombosis. Several laboratory assays were used to monitor the effects of tinzaparin and UFH. The tinzaparin only study arm produced a 4- to 6-second prolongation of the activated partial thromboplastin time (aPTT). However, in the anti-Xa chromogenic assay and the Heptest assays, there was a prolongation after the administration of all three agents. In the two groups treated for 7 days, the anti-Xa and Heptest values returned to baseline after cessation of therapy. In the patients treated with tinzaparin for 90 days, the anti-Xa and Heptest remained elevated throughout the treatment period. The anti-IIa (anti-thrombin) results were considerably lower values in the tinzaparin-treated groups. Tissue factor pathway inhibitor (TFPI) antigen levels were elevated 2- to 2.5-fold in all three groups. In addition, the thrombin/antithrombin (TAT) complexes were also measured. After treatment, the TAT levels decreased over time. Tinzaparin was more effective in decreasing these levels. These results suggest that both Heptest and anti-Xa assays can be used to monitor patients receiving tinzaparin. TAT may be a useful test in monitoring the resolution of the clots. However, additional clinical validation is required to demonstrate the relevance of these parameters with the clinical outcome.
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PMID:Laboratory analysis of blood samples from patients treated with tinzaparin. 1508 66

Low-molecular-weight heparins (LMWHs) are now universally accepted as drugs of choice for postsurgical prophylaxis and treatment of deep vein thrombosis (DVT). Currently, these agents are also being developed for the treatment of various cardiovascular conditions. Because of manufacturing differences, each of the LMWHs exhibits distinct pharmacologic and biochemical profiles. The specific activity of these agents in anticoagulant assays ranges from 35 to 45 anti-IIa U/mg, whereas the activity in terms of anti-Xa units is designated as 80 to 145 U/mg. These LMWHs are also capable of producing product-specific dose- and time-dependent antithrombotic effects in animal models of thrombosis. Although the ex vivo effects are initially present at dosages that are antithrombotic, these agents have been found to produce sustained antithrombotic effects without any detectable ex vivo anticoagulant actions. In experimental animal models and various clinical trials, these agents also have been found to release tissue factor pathway inhibitor and von Willebrand factor. In addition, LMWHs have been reported to produce fibrinolytic effects. The effect of repeated administration also exhibits product-based augmentation of the antithrombotic and hemorrhagic effects. Several new agents are being investigated as possible substitutes for heparins. These include anti-thrombin, anti-Xa, anti-TF (tissue factor), heparinoids, oral formulations of heparin, activated protein C, and biotechnologically derived serpins. These agents may not have the broad clinical spectrum as that observed with the heparins. More recently, several pharmaceutical companies have produced generic LMWHs.
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PMID:Differentiation of low-molecular-weight heparins: impact on the future of the management of thrombosis. 1508 70

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