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 pathophysiology of deep-vein thrombosis (DVT) and pulmonary embolism (PE) is briefly discussed, and the efficacy, dosage and administration, laboratory monitoring, and adverse effects of thrombolytic agents, heparin, and warfarin are reviewed. Acute therapy of DVT and PE is usually initiated with intravenous heparin; however, thrombolytic agents such as streptokinase and urokinase may be preferred in patients with massive PE or severe DVT when clot lysis rather than clot stabilization is deemed necessary. For DVT or PE, an intravenous loading dose of streptokinase or urokinase is given, followed by a continuous infusion of the drug. Therapy with streptokinase is continued for 24 hours in patients with PE and for 72 hours in those with DVT; urokinase is continued for 12 hours in patients with PE. Monitoring of blood coagulation tests during thrombolytic therapy is recommended primarily for ensuring that a lytic state is achieved. Intravenous heparin is preferred for acute treatment of DVT or PE; controversy exists regarding whether administration by continuous infusion or intermittent bolus injection is superior. Heparin dosage is usually adjusted to maintain the activated partial-thromboplastin time (APTT) ratio between 1.5 and 2.5; however, the ideal therapeutic range has never been firmly established. After acute treatment with heparin, most patients should continue to receive either warfarin or subcutaneous heparin for several months to prevent recurrent thromboembolism. Bleeding is the major adverse effect of thrombolytic agents and anticoagulants. The risk of bleeding with heparin and warfarin therapy increases with excessive prolongation of the APTT and prothrombin time (PT), respectively. Future clinical trials should further define the role of thrombolytic agents in the treatment of DVT and PE and the efficacy of less-intense warfarin therapy for pulmonary embolism or arterial thromboembolic events.
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PMID:Pathophysiology and treatment of deep-vein thrombosis and pulmonary embolism. 389 Dec

It has been suggested that early heparin requirements are greater in patients with acute deep venous thrombosis (DVT) and pulmonary embolism (PE). Heparin requirements were recorded for 73 patients with suspected DVT and PE. The maintenance dosage (days 1 through 4) of heparin sodium required to achieve therapeutic partial thromboplastin times (PTTs) was significantly higher in patients with DVT (n = 54; mean +/- SD dosage, 1,151 +/- 246 units/hr) compared with patients with no DVT (n = 19; mean +/- SD dosage, 952 +/- 190 units/hr). The first posttreatment PTT was significantly lower in patients with DVT (mean +/- SD PTT, 68.74 +/- 27.96 s) compared with control patients (mean +/- SD PTT, 89.41 +/- 23.25 s). This study supports the clinical impression that initial heparin requirements are greater and heparin clearance is more rapid in patients with acute DVT and PE.
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PMID:Prediction of heparin requirements in acute thromboplastic venous disease. 398 88

We retrospectively evaluated the risk of pulmonary embolism in hospitalized patients with venographically proved iliofemoral deep vein thrombosis (DVT). Venograms and clinical records of 78 patients with iliofemoral DVT were reviewed and the proximal intraluminal thrombus was characterized as free-floating (greater than 5-cm nonadherent segment) or occlusive (no free-floating elements). The incidence of pulmonary embolism confirmed by high-probability radioisotope ventilation-perfusion lung scanning within ten days following venography was 9% (7/78) and was associated with 60% (3/5) free-floating and 5.5% (4/73) occlusive phlebographic criteria (P less than .05). All patients who experienced pulmonary embolism were given therapeutic heparin treatment (partial thromboplastin time, more than twice the control value). The mean (+/- SD) time from the diagnosis of DVT to pulmonary embolism was 104 +/- 60 hours, and 120 +/- 71 hours for patients with free-floating and occlusive thrombi, respectively (P greater than .05). Patients with iliofemoral DVT that met free-floating criteria are at significant risk for pulmonary embolism, despite the administration of heparin.
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PMID:Free-floating iliofemoral thrombus. A risk of pulmonary embolism. 401 71

Hageman factor, a coagulation factor (Factor 12) is reported to be deficient in users of OCs (oral contraceptives) in this letter to the editor. A 21-year-old female on OCs for 4 months was admitted with sudden onset of chest pain and shortness of breath; a lung scan confirmed bilateral pulmonary embolism. She underwent a coagulation screen, prior to heparin therapy, which revealed a partial thromboplastin time of 120 seconds. A 15% Hageman factor deficiency was found. It is suggested that before prescribing OCs, physicians should screen patients by partial thromboplastin time, at the least, to determine if Hageman factor is deficient.
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PMID:Hageman factor deficiency and oral contraceptives. 610 95

A comparative clinical trial was undertaken in 2420 patients undergoing thoracic surgery during a 4-year period (1973-1977); 40% of the patients had bronchial cancer. Random allocation was not considered as being possible by the surgeons and was replaced by allocation according to the time of operation. There were three protocol groups: Protocol A: First morning operations (1007 patients): subcutaneous calcium heparin, 5000 units (Ul) 2 hours and 30 minutes before surgery then every 12 hours for 15 days. Protocol B: Second morning operations (932 patients): same dose and duration of treatment; the first injection took place 24 to 72 hours after the surgical procedure. The doses were increased from the fourth day after surgery in order to obtain a moderately prolonged partial thromboplastin time (difference patient-control: 7 to 14 seconds). Protocol 0: 481 patients received no anticoagulant treatment because of a contraindication or minor surgical procedure. Preliminary results showed and increase of per-operative bleeding (p less than 0.01) in treated patients; this was very well accepted by the surgeons. Among the heparin-treated patients, 11 pulmonary emboli out of 13 were observed in patients with bronchial cancer. Of these 13, 10 were fatal with 9 being verified at autopsy. The pulmonary emboli episodes occurred significantly earlier in protocol B than in protocol A. Fatal pulmonary embolism in patients with bronchial cancer was significantly more frequent in protocol B (7 cases) than in protocol A (1 case); P less than 0.01. These results have shown a low frequency of fatal pulmonary emboli in patients without bronchial cancer receiving twice-daily subcutaneous injections of heparin (2 of 1102 operated subjects). The rate was higher in patients with bronchial cancer and this results supports a recommended thrice-daily dose in such patients. In addition, the pre-operative administration of heparin is useful in preventing early post-operative pulmonary embolism.
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PMID:[Prevention of postoperative thrombo-embolic accidents following thoracic surgery by low-dose calcium heparinate: a comparative study (author's transl)]. 626 28

In a prospective study, 280 patients with phlebographically proven deep venous thrombosis received intravenous heparin infusion; 224 of the patients were subjected to control phlebography after 5-8 days of treatment. Females above 70 years showed least phlebographic improvement despite similar heparin dosage and heparin activity. Heparin activity in daily drawn blood samples was determined by four different assays. Chromogenic substrate (CS) assay (Coatest heparin), activated partial thromboplastin time (Cephotest), and thrombin time with recalcified plasma (CaTT) showed weak but significant correlations with thrombus resolution judged by phlebography (p = 0.004, 0.003 and 0.018, respectively). A linear prediction equation showed that the phlebographic result was about equally influenced by the mean dose and by the result of any of the three heparin assays. Thrombin time with citrated plasma showed no correlation. CS assay and CaTT showed significantly lower mean heparin activity in patients with (n = 13) than without clinically diagnosed pulmonary embolism (p = 0.012 and 0.001, respectively).
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PMID:The antithrombotic effect of heparin in deep venous thrombosis: relation to four heparin assays. 649 86

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 prospective, randomized, controlled clinical trial was performed comparing the antithrombotic efficacy of the low molecular weight heparin LMWH 21-23, (Braun) with an unfractionated heparin in elective general surgical patients over an observation period of 7 postoperative days. A total of 230 patients were admitted: 103 (group I) received low molecular weight heparin and 100 (group II) low-dose unfractionated heparin treatment given subcutaneously. In group I 41 patients (46%) were operated on for malignant disease and in group II 54 patients (54%). Due to the large amount of great abdominal procedures the intra- and perioperative application of hydroxyethyl starch was allowed for volume substitution. None of the patients died due to fatal pulmonary embolism. In group I four patients revealed positive 125I-labeled fibrinogen uptake (3.9%); two patients belonged to the hydroxyethyl starch subgroup. In group II five patients displayed a positive fibrinogen uptake (5%); two belonged to the hydroxyethyl starch subgroup. The results of the hemostaseological investigations (e.g., prothrombin time, activated partial thromboplastin time, thrombin clotting time, fibrinogen, antithrombin III, protein C, plasminogen, alpha 2-antiplasmin, tissue-type plasminogen activator, plasminogen activator inhibitor) revealed no statistically significant differences between groups I and II or their subgroups, although a tendency to prolonged clotting times was observed. The antifactor Xa activity values, however, displayed a statistically significant difference between the two groups (P < 0.05). The antifactor Xa activity measured up to 0.16 U/ml for the low molecular weight heparin (group I) and 0.05 U/ml for the unfractionated heparin (group II) in the postoperative period.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prospective randomized clinical study in general surgery comparing a new low molecular weight heparin with unfractionated heparin in the prevention of thrombosis. 789 22

We studied 84 consecutive patients referred with the suspicion of pulmonary embolism (PE) to investigate the influence of clinical and hematological profiles on the diagnosis and severity of this disease and recovery. Diagnosis of PE was confirmed in 48 out of 84 patients by perfusion scintigraphy and/or pulmonary arteriography. Severity of PE and entity of recovery were investigated by measuring standard PaO2 on blood gas analysis and the number of unperfused lung segments ULS on perfusion scintigraphy. Most common clinical predisposing conditions were more frequent, though not significantly so, in embolic patients and a very low prevalence of PE was appreciable in patients without clear predisposing conditions. Among coagulation factors, only thrombin-antithrombin (TAT) complexes were twice as high in embolic as in nonembolic patients (14.0 +/- 13.6 vs. 7.0 +/- 4.2 ng/ml; p < 0.02), while there was no statistically significant difference between embolic and nonembolic patients for activated partial thromboplastin time, prothrombin time, antithrombin III, protein C, fibrinogen, plasminogen, alpha 2-plasmin inhibitor, and plasminogen activator inhibitor-1. Sensitivity and specificity of TAT complexes in diagnosis of PE were 95.8% and 30.5%, respectively. Therefore, normal values of TAT complexes may help exclude the diagnosis of PE, while abnormal values allow to reinforce the clinical suspicion of PE. No relation was found between coagulation parameters and the severity of PE. The follow-up of 48 patients with confirmed PE was favorable on the average; however, neither the presence of predisposing conditions nor abnormal coagulation parameters allow to predict the degree of functional and scintigraphic improvement during follow-up.
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PMID:Clinical, anamnestic and coagulation data in patients with suspected or confirmed pulmonary embolism. 800 95


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