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)

Invasion of renal tumor into retroperitoneal major vessels with thrombosis should be characterized as local spread of renal carcinoma and a serious complication. Extensive interventions were conducted in 30 subjects out of 196 nephrectomy cases. Nephrectomy was attended by colectomy (3 cases), pancreatic resection and adrenalectomy (3 cases), resection of the liver (2 cases), one-stage lobectomy (2 cases), adrenalectomy (9 cases), resection of the uterine appendages (1 case), resection of the colon, splenectomy, opening of an intraorganic abscess. 12 patients underwent thrombectomy from the major vein via the thoracophrenoabdominal approach. Cavathrombectomy was carried out in 7 (3.6%) patients, in 3 of which vena cava inferior was resected. Removal of the thrombus from the renal vein with resection of the opening and suturing of the vena cava inferior was performed in 5 patients. The thrombus originated from the right kidney in 9, while from the left one in 3 patients treated surgically. The thrombi occupied 4-10 cm along the renal vein from its opening. The removed kidney weighted from 400 to 3200 g. One death occurred due to pulmonary embolism during the operation, one on day 5 due to cardiopulmonary insufficiency. Histological examinations of the thrombi showed them to consist of fibrin, blood elements and tumor cells within the thrombus. The thrombi grow slowly, undergo organization and vascularization. Tumor cells multiply in the thrombus. Fibrin coating restricts cancer cell free dissemination via the venous system. Cavathrombectomy is considered the only way to prolong survival for the above patients.
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PMID:[Extensive operations in kidney cancer complicated by tumor thrombus invasion of the inferior vena cava]. 141 37

The haemostatic balance can basically be described as the equilibrium between fibrin formation (coagulation) and fibrin lysis (fibrinolysis). The status of this balance may therefore be reflected by the products of these two processes. Until recently, the tests for assessment of fibrin(ogen) degradation products were performed in serum since they were based on polyclonal antibodies, which cross-react with fibrinogen. However, the use of serum introduces many artefacts so the utility of these serum tests is limited. New assays have now become available, which can be divided into quantitative enzyme immunoassays (EIAs) and semi-quantitative latex agglutination assays. The new assays can be carried out in plasma since they use highly specific monoclonal antibodies, the majority of which do not cross-react with fibrinogen. This makes it possible to avoid the serum artefacts. Furthermore, these plasma assays can discriminate between degradation products of fibrin and those of fibrinogen (FbDPs and FgDPs, respectively). The possible clinical utility of the new assays is discussed on the basis of literature data on the following clinical states: deep venous thrombosis (DVT) and pulmonary embolism, liver disease and liver transplantation, sickle cell disease, renal diseases, pregnancy and preeclampsia, disseminated intravascular coagulation (DIC), malignancy, coronary artery disease and thrombolytic therapy. Fibrinolysis appears to be accompanied by fibrinogenolysis. Detection of fibrin(ogen) derivatives may be used to rule out DVT and to monitor efficacy of anticoagulant treatment for DVT or DIC, and reflects severity of renal disease but not renal function. High levels of FgDPs were found during orthotopic liver transplantation and thrombolytic therapy. Fibrin(ogen) degradation products cannot be used to predict reperfusion following thrombolytic therapy. The fibrinolytic system remained active during normal and complicated pregnancy and in patients with malignancies. The new assays provide valuable information on fibrin(ogen)olysis in several diseases. More information on the haemostatic balance may be obtained by using these new assays for fibrin(ogen)olysis products in combination with assays for coagulation products.
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PMID:Monoclonal antibody-based plasma assays for fibrin(ogen) and derivatives, and their clinical relevance. 210 91

The mammalian fibrinolytic system comprises a proenzyme, plasminogen, which can be converted to the active enzyme plasmin, which will degrade fibrin. Plasminogen activation is mediated by plasminogen activators which are classified as either tissue-type plasminogen activator (t-PA) or urokinase-type plasminogen activator (u-PA). t-PA and single-chain u-PA (scu-PA) induce clot-specific thrombolysis, however via entirely different mechanisms. t-PA is relatively inactive in the absence of fibrin, but fibrin strikingly enhances the activation rate of plasminogen by t-PA. This is explained by an increased activity of fibrin-bound t-PA for plasminogen and not by alteration of the catalytic efficiency of the enzyme. scu-PA has a high affinity for plasminogen but, however, does not activate plasminogen in plasma in the absence of a fibrin clot, due to competitive inhibition. Fibrin-specific thrombolysis appears to be due to the fact that fibrin reverses the competitive inhibition, but this does not seem to occur via specific binding of scu-PA to fibrin. The thrombolytic efficacy and fibrin-specificity of natural and recombinant t-PA has been demonstrated in animal models of pulmonary embolism, venous thrombosis and coronary artery thrombosis. In all these studies thrombolysis and relative fibrinogen sparing effect of t-PA was recently confirmed in several multicenter clinical trials in patients with acute myocardial infarction. Specific thrombolysis by scu-PA has also been demonstrated in animal models of pulmonary embolism, venous thrombosis and coronary artery thrombosis.
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PMID:Fibrin-specific thrombolytic agents. 304 5

The fibrinolytic system comprises a proenzyme, plasminogen, which can be converted to the active enzyme, plasmin, which degrades fibrin. Plasminogen activation is mediated by plasminogen activators, which are classified as either tissue-type plasminogen activators (t-PA) or urokinase-type plasminogen activators (u-PA). Inhibition of the fibrinolytic system may occur at the level of the activators or at the level of generated plasmin. Plasmin has a low substrate specificity, and when circulating freely in the blood it degrades several proteins including fibrinogen, factor V, and factor VIII. Plasma does, however, contain a fast-acting plasmin inhibitor, alpha 2-antiplasmin, which inhibits free plasmin extremely rapidly but which reacts much slower with plasmin bound to fibrin. A "systemic fibrinolytic state" may, however, occur by extensive activation of plasminogen and depletion of alpha 2-antiplasmin. Clot-specific thrombolysis therefore requires plasminogen activation restricted to the vicinity of the fibrin. Two physiological plasminogen activators, t-PA and single-chain u-PA (scu-PA) induce clot-specific thrombolysis, via entirely different mechanisms, however. t-PA is relatively inactive in the absence of fibrin, but fibrin strikingly enhances the activation rate of plasminogen by t-PA. This is explained by an increased affinity of fibrin-bound t-PA for plasminogen and not by alteration of the catalytic rate constant of the enzyme. The high affinity of t-PA for plasminogen in the presence of fibrin thus allows efficient activation on the fibrin clot, while no significant plasminogen activation by t-PA occurs in plasma. scu-PA has a high affinity for plasminogen (Km = 0.3 microM) but a low catalytic rate constant (kcat = 0.02 sec-1). However, scu-PA does not activate plasminogen in plasma in the absence of a fibrin clot, owing to the presence of (a) competitive inhibitor(s). Fibrin-specific thrombolysis appears to be due to the fact that fibrin reverses the competitive inhibition. The thrombolytic efficacy and fibrin specificity of natural and recombinant t-PA has been demonstrated in animal models of pulmonary embolism, venous thrombosis, and coronary artery thrombosis. In all these studies intravenous infusion of t-PA at sufficiently high rates caused efficient thrombolysis in the absence of systemic fibrinolytic activation. The efficacy and relative fibrinogen-sparing effect of t-PA was recently confirmed in three multicenter clinical trials in patients with acute myocardial infarction.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular mechanisms of fibrinolysis and their application to fibrin-specific thrombolytic therapy. 355 13

A new method is described for identifying low concentrations of circulating derivatives of fibrinogen and fibrin, even when present in heterogeneous mixtures. This technique is applicable to plasma and serum and uses electrophoresis in 2% agarose in the presence of sodium dodecyl sulfate (SDS) followed by immunological identification of separated derivatives, using radiolabeled antifibrinogen antiserum and autoradiography. Unique electrophoretic patterns distinguish plasmic derivatives of crosslinked fibrin from those of fibrinogen and also identify crosslinked fibrin polymers produced by the combined action of thrombin and factor XIII on fibrinogen. The assay is sensitive to a concentration of 0.1 micrograms/mL of fibrinogen in serum or plasma. Fibrin polymers, plasmic degradation products of fibrinogen, and plasmic degradation products of crosslinked fibrin were detected in the plasma or serum of a patient with disseminated intravascular coagulation. Plasmic derivatives of both fibrinogen and crosslinked fibrin appeared in serum in the course of fibrinolytic therapy for pulmonary embolism, whereas during acute myocardial infarction a marked increase in the proportion of fibrin polymers in plasma was found in comparison with normal controls. Thus, the procedure can distinguish between the simultaneous processes of fibrin polymer formation, fibrinogenolysis, and fibrinolysis, and is sufficiently sensitive to detect relevant quantities of derivatives in pathologic conditions.
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PMID:Specific identification of fibrin polymers, fibrinogen degradation products, and crosslinked fibrin degradation products in plasma and serum with a new sensitive technique. 397 Oct 42

Fibrin D-Dimer (D-Di), prothrombin activation fragment (F 1+2) and thrombin-antithrombin III complexes (TAT) were measured using ELISA procedures in the plasma of patients with an acute deep venous thrombosis (DVT), at presentation and on days 2, 6 and 10 after initiation of heparin treatment. Patients were randomly allocated into two treatment groups: 44 patients received adapted doses of continuous intravenous unfractionated heparin (UH) whereas 47 received 1 mg/kg every twelve hours of a low molecular weight heparin (enoxaparin) subcutaneously. A phlebography and a perfusion lung scan were performed before inclusion and on day 10. Failure of therapy (n = 9) was defined by venogram worsening or confirmed pulmonary embolism. Improvement (n = 44) or stationary state (n = 38) were defined by venogram evolution in the absence of new leg scan defects. At presentation, D-Di, F 1+2 and TAT were above cut-off values in 97, 66 and 89% of patients respectively. D-Di levels correlated with the extent of venous thrombosis whereas TAT and F 1+2 did not. Mean levels of D-Di decreased sharply during the first days of treatment but were still abnormal on day 10. A secondary increase of D-Di on days 6 or 10 by more than 3 micrograms/ml occurred in 4 of the 9 patients who developed a thromboembolic recurrence but in none of the 72 patients who had a more favorable outcome. F 1+2 and TAT time-courses were not related to clinical evolution. In the Enoxaparin group, there was no relationship between antifactor Xa activities and any biological markers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Markers of hemostatic system activation in acute deep venous thrombosis-evolution during the first days of heparin treatment. The DVTENOX Study Group. 816 10

Fibrin formation is a multistep process initiated by thrombin. At first thrombin converts fibrinogen to fibrin molecules which in vivo form soluble complexes with fibrinogen. Soluble fibrin is considered to be an early biochemical marker for intravascular fibrin formation and impending thrombotic events, such as deep venous thrombosis (DVT), pulmonary embolism (PE) and disseminated intravascular coagulopathy (DIC). A new enzyme immunoassay (EIA) was developed on the basis of a monoclonal antibody directed against a fibrin specific neo-epitope located on the gamma-chain of fibrinogen; gamma-(312-324). In addition, it was possible to prepare a lyophilized reference material of thrombin-generated soluble fibrin, that allowed for full antigen recovery after reconstitution with buffer. Assay conditions, e.g. solid phase-Ig concentration and buffer composition, sample and conjugate dilution, and incubation times were optimised. The present assay was found to be specific (no interference of homologous antigens) and reproducible (intra-assay CV 4-8%, interassay CV 4-9%), and therefore highly suited for measuring soluble fibrin levels in a plasma milieu. The median normal value for soluble fibrin was determined in plasma samples obtained from apparently healthy volunteers (n = 81) and found to be 0.040 microg/ml, with a range (10-90 percentiles) of 0.026-0.059 microg/ml. A retrospective study showed that soluble fibrin levels were highly significantly increased in patients with a confirmed diagnosis of DIC (median 1.042 microg FEU/ml, range 0.160-2.319 microg/ml, n = 21, P<0.0001 vs. normal). PE (median 0.527 microg FEU/ml, range 0.084-1.234 microg/ml, n = 29, P<0.0001 vs normal) and DVT (median 0.126 microg FEU/ml, range 0.059-0.878 microg/ml, n = 36, P<0.0001 vs. normal), as determined by the Mann-Whitney U-Test.
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PMID:A new enzyme immunoassay for soluble fibrin in plasma, with a high discriminating power for thrombotic disorders. 997 75

Many studies have shown that D-dimer determinations can be used for the exclusion of venous thromboembolism in symptomatic outpatients, depending however on the method of D-dimer measurement. Another related assay, the Fibrin Monomer test which measures soluble fibrin levels in plasma by ELISA, is now available. We have evaluated the performances of this assay for the exclusion of pulmonary embolism (PE) in 426 consecutive outpatients presenting at the emergency ward of our institution. Diagnosis of PE was made by D-dimer measurement, compression ultrasonography, lung scintigraphy, venography and pulmonary angiography. With a cut-off of 3 microg/ml. the sensitivity and the negative predictive value were both 100% (95% CI: 97.1-100 and 96.3-100 respectively) and the specificity 33% (95 % CI: 25.7-38.1). With 4 microg/ml, the corresponding figures were 98.4 (95% CI: 94.4-99.8), 98.3 (95% CI: 94.1-99.8) and 39% (95% CI: 33.6-44.7) respectively. The prevalence of PE was 30%, the exclusion rates were 23 and 27% for either cut-off. When compared with a reference D-dimer assay (Asserachrom D-Di), a good correlation was observed. In conclusion, this is the first study suggesting the interest of this Fibrin Monomer test to rule out PE; these results, however, need to be confirmed by other studies.
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PMID:Performances of the fibrin monomer test for the exclusion of pulmonary embolism in symptomatic outpatients. 1006 95

Fibrin monomer (FM) is a highly sensitive marker of venous thromboembolism and can be used to rule out deep venous thrombosis (DVT) and/or pulmonary embolism in symptomatic outpatients. The aim of the study was to investigate the usefulness of serial fibrin monomer determinations to predict or rule out DVT after total knee arthroplasty in asymptomatic patients. One hundred and thirty consecutive patients underwent total knee replacement. Blood samples were obtained in 104 of them the day before, at days 1, 3, 6 after surgery and at the day of phlebography. Phlebography was performed in all these patients between days 8 and 12 after surgery. There were 44 DVT (44/104, 42%). As compared with the patients without DVT, FM mean levels were 2 and 1.5 times higher in the DVT group at day 3 (P < 0.001) and day 6 (P < 0.01), respectively. However, no useful cut-off values for DVT prediction or exclusion could be determined due to the scattering of the values. Therefore, despite differences between patients with or without DVT, serial FM determinations are of no value for predicting or ruling out DVT in individual patients undergoing total knee arthroplasty.
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PMID:Inability of serial fibrin monomer measurements to predict or exclude deep venous thrombosis in asymptomatic patients undergoing total knee arthroplasty. 1087 Aug 11

Venous thrombosis and pulmonary embolism are major clinical problems that result in significant morbidity and mortality. It is estimated that 600,000 cases of pulmonary embolism occur each year in the United States, resulting in the death of approximately 100,000 patients. Most of these pulmonary emboli arise from deep venous thrombosis (DVT). The clinical diagnosis of DVT is unreliable. Only a third of patients with a clinical suspicion of DVT have objective evidence of the disease, and half of patients with proven DVT do not have any clinical symptoms. Although ascending contrast venography is the present standard for the diagnosis of DVT, duplex ultrasonography, which is increasingly used in combination with color Doppler flow imaging, is accepted as a useful clinical afternative to contrast venography. Both contrast venography and ultrasonography are imaging procedures that detect changes in venous anatomy that are caused by the presence of an intraluminal thrombus that is sufficiently formed either to reduce vascular filling with contrast medium or to resist compression. However, these imaging procedures do not reflect the metabolic activity of the clot, and therefore, they may overestimate the presence of active clots. The sensitivity of ultrasonography is also limited by various disease-related and technical factors. An alternative approach to the diagnosis of acute DVT is to detect a molecular marker of acute DVT that is not present in old, organized DVT. Recent advances in biotechnology permit the use of highly specific synthetic peptide or small molecular markers, which are involved in the acute stages of DVT formation and can be labeled efficiently with 99mTc. 99mTc-apcitide, a glycoprotein (GP IIb/IIIa) receptor antagonist previously known as 99mTc-P280, has been approved recently by the Food and Drug Administration for the clinical detection of acute DVT. Two other agents are currently under clinical investigation: 99mTc-DMP 444, which is another GP IIb/IIIa receptor antagonist, and 99mTc-Fibrin-Binding Domain (FBD), a radio-labeled fibrin-binding domain of fibronectin. Different clinical studies have shown a high diagnostic accuracy with these synthetic 99mTc-labeled peptides in the detection of acute DVT. Although further studies are needed to fully appreciate all of the diagnostic potential of these radiopharmaceuticals, the clinical introduction of 99mTcapcitide scintigraphy will certainly be helpful in expanding the use of nuclear medicine in a specific field in which it used to play a relatively marginal role.
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PMID:Radiolabeled peptides in the detection of deep venous thrombosis. 1133 Jul 82


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