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:C0034065 (pulmonary embolism)
14,979 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Venous thrombo-embolism is a common complication in patients with acute ischaemic stroke. Without prophylaxis, deep vein thrombosis occurs in 60-75% of patients with dense hemiplegia, usually in the paralyzed limb, and 1-2% suffer fatal pulmonary embolism. Orgaran (Org 10172, low-molecular-weight heparinoid) has been evaluated for the prevention of deep vein thrombosis in patients with acute ischaemic stroke in two studies. In a double-blind study, 75 patients were randomized to receive Orgaran (50 patients) in a loading dose of 1,000 anti-Xa units intravenously followed by 750 anti-Xa units subcutaneously 12-hourly or placebo (25 patients). Deep vein thrombosis occurred in 2 of 50 (4%) in the Orgaran group and 7 of 25 (28%) in the placebo group (p = 0.005). The corresponding rates for proximal deep vein thrombosis were 0 and 16%, respectively (p = 0.01). There was one major haemorrhage in the treated group and one minor haemorrhage in the placebo group. In the second study, the safety and efficacy of Orgaran was compared with unfractionated heparin in the prevention of deep vein thrombosis in a double-blind randomized trial. Eighty-seven patients with marked lower limb paralysis secondary to stroke were randomized to receive Orgaran (45 patients) in a dose of 750 anti-factor Xa units subcutaneously 12-hourly or unfractionated heparin (42 patients) in a dose of 5,000 units subcutaneously 12-hourly. Venous thrombosis occurred in 4 of 45 (8.9%) of the Orgaran group and 13 of 42 (31%) in the unfractionated heparin group (2p = 0.014). The corresponding rates for proximal vein thrombosis were 4.4 and 11.9%, respectively (2p = 0.255).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Orgaran in the prevention of deep vein thrombosis in stroke patients. 137 69

Standard unfractionated heparin is a mixture of mucopolysaccharide chains of various length that may vary from 5000 to 30,000 daltons. Heparin is only effective as an anticoagulant in the presence of a plasma protein termed antithrombin III, with which it forms a complex. High- and low-affinity heparin are 2 types that readily bind or do not bind, respectively, to antithrombin III. The pharmacokinetics of unfractionated heparin are compatible with a model based on the combination of a saturable and a linear mechanism. The primary indication for intravenous infusion of conventional heparin is to prevent extension of an established arterial, venous or intracardiac thrombus. The average requirement is 400 U/kg/24h. Subcutaneous administration of 5000U of concentrated unfractionated heparin, administered every 8 or 12 hours, is effective and safe in the prevention of postoperative venous thrombosis and pulmonary embolism in patients at medium thrombotic risk. Adequate prophylaxis is also obtained in patients at high thrombotic risk if 5000U of heparin combined with 0.5mg dihydroergotamine is given subcutaneously 3 times daily, or by monitoring the 3 subcutaneous doses of heparin in order to maintain an adjusted activated partial thromboplastin time (APTT) of around 50 to 70 seconds. Low molecular weight heparins have been produced by a variety of techniques and their molecular weights range from 3000 to 9000 daltons. These preparations have a ratio of anti-factor Xa activity to anti-factor IIa activity of about 4, while the ratio for unfractionated heparin is 1. After intravenous administration of low molecular weight heparin, the half-life of the anti-factor Xa activity is considerably longer than for unfractionated heparin, while the anti-factor IIa half-lives are similar. In contrast to unfractionated heparin, low molecular weight heparin is completely absorbed after subcutaneous administration and its biological half-life is almost twice as long. In spite of certain differences with regard to the ratio between factor Xa and IIa inhibition, the various low molecular weight preparations show a rather similar absorption pattern. The bioavailability of all low molecular weight heparin fractions is substantially higher than that of unfractionated heparin, which renders their use more simple. Low molecular weight heparins less readily enhance platelet aggregation although there is no evidence that low molecular weight heparins are less antigenic or that they do not interact with platelet IgGFc receptor. A lower bleeding incidence for equivalent antithrombotic efficacy of fractionated heparins when compared to unfractionated heparins has yet to be established in humans.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pharmacotherapeutic aspects of unfractionated and low molecular weight heparins. 196 34

The present investigation describes a novel approach to prepare a specific antibody against prothrombin activation fragment 1 + 2 (F 1 + 2). The antibody discriminates between native prothrombin and F 1 + 2 in plasma. A synthetic peptide from the negatively charged region of F 1 + 2, which becomes the carboxy-terminal sequence after cleavage of prothrombin by factor Xa, was used for immunization of rabbits. Obtained antiserum was immunopurified and an enzyme-linked immunosorbent assay (ELISA) was constructed for determination of F 1 + 2. The test system follows the sandwich principle and uses two different antibodies directed against F 1 + 2 and prothrombin, respectively. The ELISA was calibrated with purified F 1 + 2 added to F 1 + 2-poor plasma. The lower limit of sensitivity of the assay was 0.02 nmol/l. Coefficients of variation of 6.9 to 10.4% (intraassay) and 6.7 to 11% (interassay) were found for F 1 + 2 concentrations between 0.08 and 4.9 nmol/l. A reference range from 0.32 to 1.2 nmol/l was calculated from 95 healthy donors (mean value +/- SD: 0.67 +/- 0.19 nmol/l). In patients with deep vein thrombosis (n = 7) confirmed by phlebography and in patients with pulmonary embolism (n = 8) confirmed by lung scan, F 1 + 2 levels were found up to 1.5 to 9.5 nmol/l. In plasma samples of patients under oral anticoagulant therapy in the stable state F 1 + 2 concentrations were found to be in the range of 0.08 to 0.5 nmol/l.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Determination of human prothrombin activation fragment 1 + 2 in plasma with an antibody against a synthetic peptide. 179 23

In a randomized prospective trial, the efficacy of low molecular weight heparin (LMWH) (Fragmin) and dextran 70 (Macrodex) in preventing deep vein thrombosis (DVT) in the legs was evaluated in 98 consecutive patients undergoing elective total hip replacement. The patients were randomly allocated to receive either 2500 anti-factor Xa units LMWH twice daily for 7 days, with the first dose given 2 h before surgery; or 500 ml dextran 70 twice during the day of operation, followed by a single infusion of 500 ml on the first and again on the third postoperative day. DVT was assessed by 125I-fibrinogen test for 2 weeks postoperatively, a positive test being followed by phlebography. DVT developed in 22 (45 per cent) of 49 patients receiving dextran 70 and in 10 (20 per cent) of 49 patients in the LMWH group (P less than 0.01). LMWH was thus statistically significantly better than dextran 70 in preventing DVT in the legs. It was not firmly established whether this benefit was also valid in the high ileofemoral region. Two patients with non-fatal pulmonary embolism were found in each group. Per- and postoperative blood loss and blood transfusion requirements were significantly lower in the LMWH group.
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PMID:Thrombosis prophylaxis with low molecular weight heparin in total hip replacement. 246 35

Heparin of five commercially available brands was used to study the disappearance of heparin anticoagulant activity in normal humans. The drug was administered intravenously by bolus injection and by continuous infusion. Heparin anticoagulant activity was determined by two assays: a diluted activated partial thromboplastin time (APTT) and an assay based on inactivation of bovine factor Xa, using a clotting system. After a bolus injection, the data fitted neither single exponential nor zero-order clearance. In semilogarithmic plots, heparin anticoagulant activity disappeared according to a slightly convex curve almost always preceded by a rapid initial loss of heparin anticoagulant activity. This disappearance profile was observed with all heparin regardless of the brand or assay system. Heparin anticoagulant activity estimated by the APTT disappeared faster than heparin anticoagulant activity estimated by the anti-Xa activity in the first phase. As expected, higher anticoagulant levels with the anti-Xa assay than with the APTT were also found on continuous infusion in normals as well as in patients treated for deep vein thrombosis or pulmonary embolism. The experimental data suggested a model based on the combination of a saturable and a linear clearance mechanism. These experimental data provide reliable guidelines for adjustment of the dose of heparin in single patients.
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PMID:Kinetics of intravenously administered heparin in normal humans. 713 19

Two hundred and four consecutive patients with venographically confirmed deep vein thrombosis (DVT) were randomised either to a low molecular weight heparin, Fragmin, administered subcutaneously (s.c.) once daily as a fixed dose of 200 IU anti-factor Xa/kg or to continuous intravenous infusion of unfractionated heparin (UFH). The UFH dose was adjusted to maintain the activated partial thromboplastin time between 1.5 and 3.0 times the upper limit of the reference value at each centre. Fragmin or UFH was given for a minimum of 5 days until anticoagulation with warfarin, given from day 1, was established (i.e. an Internation Normalised Ratio, of 2.0-3.0). A second venogram was obtained after Fragmin or UFH treatment. There were no significant differences in the change in mean Marder score before and after treatment between the two treatment groups, irrespective of thrombus localisation. No major bleeding events, symptomatic pulmonary embolism, symptomatic thrombosis progression or death occurred during hospitalisation. Eight documented venous thromboembolic events occurred before the follow-up visit 6 months after randomisation: 5 in patients treated with Fragmin and 3 in those treated with UFH. Six of these events occurred after cessation of warfarin treatment. In conclusion Fragmin given s.c. once daily in a fixed dose adjusted for body weight, is no less effective or safe than a continuous infusion of UFH in the initial treatment of acute DVT.
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PMID:Comparison of once-daily subcutaneous Fragmin with continuous intravenous unfractionated heparin in the treatment of deep vein thrombosis. 783 49

A review based on 17 randomised studies on low molecular weight heparin (LMWH) versus unfractionated heparin (UFH) in the treatment of objectively verified deep venous thrombosis (DVT) is presented. Long-term treatment with LMWH was compared with long-term UFH in two studies and with warfarin in one study. In the rest of the studies LMWH and UFH were used during initiation of oral anticoagulant therapy, and these studies were included in a meta-analysis. The relative risk of progression of DVT during LMWH treatment compared with UFH was 0.63 (95% confidence interval: 0.39-1.00) and the relative risk of major bleeding was 0.41 (95% confidence interval: 0.24-0.70). There was no significant difference in the reduction of Marder score during treatment (LMWH 5.0 versus UFH 3.8) or in the frequency of new symptomatic, scintigraphically or angiographically verified pulmonary embolism (LMWH 0.6% versus UFH 1.1%). The frequency of complications seemed independent of whether LMWH was administered once or twice daily. Monitoring of LMWH treatment is not considered necessary but determination of anti-factor Xa in plasma is recommended if bleeding occurs during treatment with LMWH.
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PMID:[Low molecular weight heparin versus unfractionated heparin in the treatment of deep venous thrombosis--a meta-analysis]. 798 76

Low molecular weight heparins are well established in the prophylaxis of deep vein thrombosis in patients with general surgery, in high risk patients undergoing elective hip surgery or emergency surgery and also in patients with an enhanced risk of thrombosis who are treated in medical wards. There are, however, many possibilities for improving prophylaxis and treatment with LMWH. The mechanisms by which low molecular weight heparins and also unfractionated heparin inhibit thrombus formation are not fully understood. The inhibition of thrombin formation and local effects at the endothelial level may be more important than antithrombin-III mediated effects on factor IIa and on factor Xa. For most low molecular weight heparins the most effective dose regimens to be used in patients at high risk have not yet been established. Low molecular weight heparins may be more effective in the treatment of deep venous thrombosis than unfractionated heparin. In the therapeutic studies published so far the major intention was to show that low molecular weight heparins can prevent the progression of deep venous thrombosis and pulmonary embolism to the same extent as unfractionated heparin. Extended treatment regimens, however, may lead to a relevant thrombus reduction. Outpatient treatment for a longer period of time with results not far from those obtained with thrombolysis seem possible especially in elderly patients. Low molecular weight heparins in their present form or modified low molecular weight heparins may be useful for long-term treatment of patients with atherosclerosis with the aim of regression of atherosclerotic lesions. New forms of application, e.g. inhalation, may render long-term treatment more feasible.
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PMID:Low molecular weight heparins--state-of-the-art and unsolved issues. 818 Mar 24

The incidence of postoperative deep vein thrombosis (PDVT) after aortic surgery and lower limb revascularisation has not been assessed by a large prospective study. In a prospective randomised trial the effect of a low-molecular-weight heparin fragment, Enoxaparin (ENX) 4200 anti factor Xa IU once daily was compared to that of unfractionated heparin (UFH) 7500 IU twice daily. Two hundred and thirty-three consecutive patients were classified into three groups, aortic or aortoiliac and aneurysmectomy (n = 75), aorto-femoral bypass for atherosclerotic disease (n = 71), and femoropopliteal or femorodistal bypass (n = 87). Patients were analysed for development of deep vein thrombosis by Duplex scanning and, if positive, by venography between the seventh and tenth postoperative day. PDVT was present in 10 patients in the ENX group and in four patients in the UFH group (8.2 and 3.6% respectively, NS). The incidence of PDVT was 8% after aortic or aortoiliac aneurysmectomy, 7% after aortofemoral revascularisation, and 3.4% after femoropopliteal or femorodistal bypass. The overall incidence of PDVT after aortic surgery was 7.5% (95% CI 5.4-9.7). There was no pulmonary embolism. Intra-operative blood loss and postoperative bleeding events did not differ significantly between the ENX and UFH groups. After 1 month follow-up, no clinical event or death could be related to PDVT or pulmonary embolism. In conclusion, in vascular surgery ENX is as safe and effective in the prevention of PDVT as is UFH.
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PMID:A randomised controlled trial of a low-molecular-weight heparin (Enoxaparin) to prevent deep-vein thrombosis in patients undergoing vascular surgery. 840 1

Beside the anticoagulant and antithrombotic activity, heparin also exerts a lipolytic activity. In a prospective study on patients with venous thromboembolism and some contraindications to coumarin therapy, a low-molecular-weight heparin (Fragmin) was compared to unfractioned (UF) heparin in terms of both efficacy and safety. A secondary aim was to study the influence of both types of heparin on serum lipid levels. Sixty-six consecutive patients who were not taking concomitant treatment with lipid-lowering drugs entered the study. Patients received treatment with either UF heparin, 10,000 IU s.c., b.d., or Fragmin 5,000 IU anti-factor Xa s.c., b.d. for a period of 3 or 6 months, according to whether the initial diagnosis was deep venous thrombosis or pulmonary embolism. Each patient was followed up at 6-weekly intervals, and blood samples were obtained at discharge, and then 6 and 12 weeks after discharge. Finally, a further sample was obtained 3 months after therapy was discontinued. Total cholesterol levels increased significantly in both groups of patients: levels increased from 193 +/- 56 to 246 +/- 63 mg/dl in the UF heparin group (p < 0.001), and from 189 +/- 53 to 222 +/- 47 mg/dl in the Fragmin group (p < 0.05). The increase was mostly due to a very strong increase in HDL cholesterol levels in patients receiving UF heparin (from 46 +/- 12 to 71 +/- 23 mg/dl; p < 0.000005). Three months after discharge, HDL cholesterol levels were significantly higher in patients taking UF heparin than in patients in Fragmin (p = 0.006). By contrast, patients on Fragmin exhibited a significant increase in LDL cholesterol levels: from 112 +/- 39 to 139 +/- 37 mg/dl; p < 0.01.
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PMID:Effects of long-term therapy with either heparin or low-molecular-weight heparin on serum lipid levels. A prospective study. 858 19


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