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)

The physician frequently encounters the problems of deep vein thrombosis and pulmonary embolism. Recently, a number of studies have been published which are of considerable help in the management of these disorders. It has been shown that in many cases, low-dose heparin is effective in the prevention of both venous thrombosis and pulmonary embolism. However, once venous thrombosis has already occurred, it is necessary to use full-dose heparin, preferably by the continuous intravenous route, with maintenance of the partial thromboplastin time (PTT) at 1 1/2 times the control at all times. Although monitoring the PTT may not prevent hemorrhage, it will help prevent further thrombosis. Heparin is generally continued for seven to ten days. During this time warfarin is generally begun, and it is important to continue the patient on warfarin for five to seven days while the patient is receiving intravenous heparin therapy. After stopping heparin, oral anticoagulation with warfarin should be continued for six weeks. Then, in the absence of a previous history of venous thromboembolism or a known predisposing condition, it is safe to abruptly discontinue anticoagulation in most patients.
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PMID:Heparin and warfarin: use of anticoagulants in the prevention and treatment of venous thrombosis and pulmonary embolism. 43 53

There are three categories of antithrombotic agents: drugs which prevent fibrin fromation (the anticoagulants and defibrinating enzymes), drugs which prevent platelet adhesion or aggregation (the antiplatelet drugs), and thrombolytic drugs which induce fibrin degradation. Clinical studies have now led to a better understanding of the relative value of these drugs in different thrombotic disorders. In addition, knowledge of the mechanism of action of some of these drugs has recently been much advanced. The anticoagulant drugs in clinical use are heparin and the oral anticoagulants. Heparin is a potent inhibitor of several steps on the intrinsic coagulation pathway through its effect on a plasma cofactor, antithrombin III. its action is immediate, but heparin must be given parenterally. Oral anticoagulants act more slowly, by reducing the hepatic synthesis of biologically active factors II, VII, IX and X, but can be given by mouth. Heparin is therefore most suitable for starting anticoagulant treatment, while oral anticoagulants are generally used for prolonged therapy. The value of the anticoagulants as antithrombotic agents has been best assessed by studying their effectiveness in preventing and treating venous thromboembolic disease. Oral anticoagulants have been repeatedly shown to prevent venous thrombosis and pulmonary embolism in patients at high risk of developing these complications. However, the increased risk of postoperative bleeding has prevented their widespread use for this purpose in surgical patients. Recently, the use of low doses of heparin, given subcutaneously before and after surgery, has been shown to markedly reduce the incidence of venous thrombosis and pulmonary embolism (including fatal pulmonary embolism) after major elective abdominal surgery, and to produce only a slight increase of postoperative bleeding. This represents a major advance in anticoagulant prophylaxis of venous thromboembolism insurgical patients. However, low dose heparin prophylasix is relatively ineffective in patients having hip surgery, and has not been evaluated in patients having other types of orthopaidic surgery. There is direct evidence that antocoagulant therapy prevents death and recurrent embolism in patients who have developed pulmonary embolism, and considerable indirect evidence that it prevents pulmonary embolism, and considerable indirect evidence that it prevents pulmonary embolism (and death from pulmonary embolism) in patients who have venous thrombosis. The incidence of further venous thromboembolism or bleeding during treatment appears to be minimised when heparin is given by continuous intravenous infusion in a dose sufficient to produce a moderate, but no excessive, prolongation of a heparin-sensitive, in vitro coagulation test. The tests most commonly used to monitor heparin therapy was based on either the whole blood clotting time or the activated partial thromboplastin time...
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PMID:Antithrombotic drugs: part I. 78 43

Thrombophlebitis has been associated with virtually all cancers, especially gastrointestinal, urogenital, and lung neoplasms. Although occurring infrequently in cancer patients, thrombophlebitis may appear before the cancer has become symptomatic and may lead to an earlier diagnosis of cancer. The phlebitic syndrome associated with cancer, although not unique, is distinctive. It is often recurrent and migratory, often involves unusual locations, and is often resistant to anticoagulation therapy. Pulmonary emboli are frequent complications. The pathogenesis of phlebitis in cancer patients is not well understood. Evidence suggests that many cancer patients are hypercoagulable, with abnormalities in platelets, coagulation factors, and the fibrinolytic system. These changes may results from the elaboration of thromboplastin-like substances from the cancer tissue.
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PMID:Thrombophlebitis and cancer. A review. 80 83

Among 100 consecutive patients receiving heparin in therapeutic dosage, major bleeding occurred in 21, and minor bleeding in 16. Two patients died from bleeding, and two had recurrent pulmonary embolism. Major bleeding occurred in 21% when therapy was regulated with whole-blood clotting time and in 20% when heparin was given without clotting tests. In a subsequent prospective trial patients received heparin by intermittent intravenous injection with or without laboratory control according to the partial thromboplastin time or continuously by intravenous infusion. Recurrent thromboembolism occurred once in each group. Major bleeding was seven times more frequent with intermittent injection than with continuous infusion. Control with the partial thromboplastin time did not prevent major bleeding in patients receiving intermittent injections. With continuous infusion, one-fourth less heparin was required than with intermittent injections. Administration of heparin by continuous infusion appears safer than intermittent injection with or without laboratory control and is no less effective for prevention of thromboembolism.
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PMID:Management of heparin therapy: Controlled prospective trial. 109 56

A patient with factor XI deficiency had pulmonary embolism, although his factor XI assay was less than 1% of normal and his postoperative course was complicated by prolonged bleeding. Programs designed to prevent postoperative venous thrombosis should be carried out in factor XI-deficient patients, since the deficient state offers no protection from a pulmonary embolus. All surgical patients who are to receive low-dose heparin therapy as a part of such a program should be screened by means of preoperative determination of the partial thromboplastin time, to identify previously unsuspected bleeding disorders.
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PMID:Pulmonary embolism with factor XI deficiency. 124 30

The response to a standard dose of heparin was studied in 20 patients with venous thromboembolism. The heparin regimen consisted of intravenous injection of 70 units per kg, followed after 90 minutes by a maintenance dose of 400 units per kg per 24 hours given by continuous infusion. Plasma heparin activity and the activated partial thromboplastin time (APTT) were measured at intervals to determine clearance of the initial injection and the response to maintenance dose. Large inter-individual variations were found in the anticoagulant effect and these were due in part to differences in heparin clearance and in part to differences in the APTT response to given amounts of heparin (heparin effect index). The heparin half-life was 63 +/- 15 minutes when plasma heparin activities were used for this calculation and 84 +/- 71.5 minutes when the APTT was used. These results are similar to values previously reported in normal volunteers. Four of the 20 patients had pulmonary embolism and in these heparin half-life was significantly shortened (P less than 0.005).
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PMID:Heparin kinetics in venous thrombosis and pulmonary embolism. 125 92

In a prospective multicenter trial, 149 consecutive patients with phlebographically proven proximal and/or distal deep vein thrombosis of the leg were randomly allocated to receive subcutaneously for 10 days either low molecular weight heparin CY 216 (Fraxiparine) in a fixed dose or unfractionated heparin (UFH) in doses adjusted according to the activated partial thromboplastin time. Pre- and post-treatment phlebograms were assessed blindly using the Arnesen's score system in 134 patients available for analysis of the treatment efficacy. The mean phlebographic score after 10 days of treatment was significantly decreased in both groups (p less than 0.001) in comparison with the baseline score but the difference in score changes between the two groups was not statistically significant. There was an improvement in 45/68 patients (66%) in the Fraxiparine group and in 32/66 patients (48%) in the UFH group, and an increase in the thrombus size in 10/68 (15%) and 12/66 (18%), respectively. One symptomatic non-fatal pulmonary embolism and one major bleeding episode were observed in the UFH group. During a follow-up period of 3 months, two rethromboses had occurred in the UFH group and none in the Fraxiparine group. It is concluded that subcutaneous fixed dose Fraxiparine is safe and at least as effective as subcutaneous adjusted UFH in the treatment of deep vein thrombosis.
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PMID:Subcutaneous low molecular weight heparin versus subcutaneous unfractionated heparin in the treatment of deep vein thrombosis: a Polish multicenter trial. 132 76

Heparin clearance and pharmacodynamic response were examined in 12 patients being treated for deep venous thrombosis (DVT, 6 patients) or pulmonary embolism (PE, 6 patients). A loading dose of 70 units/kg was administered to DVT patients and 100 units/kg to PE patients followed by an initial infusion rate of 15 or 25 units/kg/h for DVT or PE patients, respectively. Heparin clearance was determined at 4, 12, and 24 h after initiating heparin therapy. The mean heparin clearance in the DVT group was 2,164 +/- 1,024 ml/h at 4 h, 2,591 +/- 1,239 ml/h at 12 h, and 2,795 +/- 1,863 m/h at 24 h. The PE patients had clearances of 1,775 +/- 494, 2,004 +/- 321, and 2,843 +/- 1,000 ml/h at 4, 12, and 24 h, respectively. The difference between the two groups was not statistically significant (p greater than 0.50). The activated partial thromboplastin time (aPTT) was used as a measure of heparin effect. The maximum effect (EMAX) and concentration required to attain 50% of the maximum effect (EC50) were determined for each group using the Lineweaver-Burke linearization method. The mean EMAX and EC50 for the DVT patients were 130 +/- 40.99 s and 1.01 +/- 0.70 units/ml, respectively. For the PE patients, the mean EMAX was 418 +/- 200 s and the mean EC50 was 4.32 +/- 2.81 units/ml. The difference between both groups for each parameter was statistically significant (p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered heparin pharmacodynamics in patients with pulmonary embolism. 144 41

A 30-year-old man was hospitalized because of increasing dyspnoea for 4 weeks. Chest X-ray demonstrated an infiltrate in the right upper lobe and enlargement of the central pulmonary arteries. Lung perfusion scintigraphy revealed, typical of embolism, absent perfusion of the entire right upper lobe, as well as segmental embolism in the left upper and basal lobes. Phlebography of the legs and pelvis was unremarkable. Intravenous heparin treatment was begun (initially 1,250 IU/h, then dosage adjusted according to the partial thromboplastin time). Nonetheless the patient's condition deteriorated the next day and the respiratory failure increased (pO2 61 mm Hg despite oxygen supply). Streptokinase was then infused in ultra-high dosage, 9 million units over 6 hours. But the patient died of cardiocirculatory failure 4 hours after the streptokinase infusion had been finished. Autopsy revealed fulminant recurrent pulmonary embolism with occlusion of the right main pulmonary artery. The emboli had their origin in renal vein thrombosis extending into the inferior vena cava, which had probably been caused by slight trauma to the flank during a game of squash 6 weeks previously.
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PMID:[Fatal pulmonary embolism after lysis therapy in post-traumatic renal vein thrombosis]. 150 53

To assess the incidence, risk factors, and clinical importance of deep vein thrombosis in acute stroke, we studied 70 consecutive patients who underwent hemostasis screening at the time of entry into the study and followed up these patients with serial venous Doppler examinations and the iodine 125-labeled fibrinogen uptake test. Mortality was significantly higher among the 20 patients who developed a deep vein thrombosis, and eight of them had necropsy evidence of pulmonary embolism. Severity of leg paresis and a shortened activated partial thromboplastin time were significantly associated with subsequent deep vein thrombosis with multivariate analysis. Significantly higher levels of fibrinopeptide A were found in patients with postmortem evidence of pulmonary embolism. Deep vein thrombosis is a frequent complication of acute stroke and may influence the prognosis by inducing pulmonary embolism. Our findings allow rapid identification of high-risk patients who may benefit maximally from prophylactic treatment of venous thromboembolism.
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PMID:Venous thromboembolism in acute stroke. Prognostic importance of hypercoagulability. 153 31


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