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: EC:3.4.21.6 (thromboplastin)
13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new case of congenital dysfibrinogenemia has been discovered in a 20 year old woman, who suffered from a severe postpartal hemorrhage after the delivery of her first child, followed by episodes of thrombosis. Coagulation studies reveal a prolongation of thrombin time, reptilase time was immeasurable. Thromboplastin time and partial thromboplastin time were slightly prolonged. Low fibrinogen levels were obtained by techniques, which depend on the coagulation velocity following addition of thrombin, while immunological procedures gave slightly diminished values of fibrinogen. Patients's fibrinogen had a moderate inhibitory effect on the fibrin formation in normal plasma. However, inhibitors of the fibrinogen-fibrin conversion could not be detected. Coagulation factors were normal, fibriolysis as well. The cause of the coagulation disorder was found to be a defect of the fibrinogen molecule, leading to an abnormal fibrin polmerization of patient's fibrin monomers. The release of the fibrinopeptides in the paperelectrophoresis was normal. The defect of the fibrinogen molecule did not protect from thrombotic complications. The same defect could be found in the lower scale in patient's father, 4 of her 7 brothers and sisters, and her son.
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PMID:Fibrinogen Marburg a new genetic variant of fibrinogen. 83 66

A new case of heterozygous dysfibrinogenemia characterized by an amino acid replacement in the NH2-terminal region of the fibrin alpha-chain was found in a 27-year-old woman with a bleeding problem. Her one-stage prothrombin time and activated partial thromboplastin time were slightly prolonged, and the purified fibrinogen from this patient had a markedly prolonged thrombin or reptilase time. Release of fibrinopeptides A and B was normal, but the polymerization of fibrin monomers was impaired. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified fibrinogen under the reduced condition showed no abnormalities in the apparent molecular weights of its three chains. Reverse-phase high performance liquid chromatography (HPLC) of the lysylendopeptidase-cleaved purified A alpha-chains showed a decrease in one peptide compared with the normal amount and the appearance of an abnormal peptide peak. These peptides were treated with thrombin and further separated on HPLC. Amino acid sequence analysis of the abnormal peptide indicated that A alpha proline-18, the second residue from the NH2-terminus of the fibrin alpha-chain, was replaced by leucine. The synthetic peptide Gly-Pro-Arg-Pro inhibited both thrombin- and reptilase-induced fibrin aggregation, but Gly-Leu-Arg-Pro showed little or no inhibition under the same conditions. The discovery of this abnormal fibrinogen supports the findings that A alpha proline-18 is important as part of the polymerization site in the NH2-terminus of the fibrin alpha-chain. The propositus' mother had the same abnormal fibrinogen. This unique inherited abnormal fibrinogen was designated as fibrinogen Kyoto II.
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PMID:Fibrinogen Kyoto II, a new congenitally abnormal molecule, characterized by the replacement of A alpha proline-18 by leucine. 207 49

The 5-year experience with a panel of laboratory tests designed to identify patients with high risk of thromboembolism was reviewed. This panel included an activated partial thromboplastin time and reptilase time as well as specific assays for antithrombin III, protein C, protein S, and plasminogen. One hundred and nine patients were evaluated by this panel. Conditions predisposing to thrombosis were identified in 24 of these patients and these conditions included: dysfibrinogenemia, lupus anticoagulant, and deficiencies of antithrombin III, protein C and protein S. The limitations of this panel are also discussed.
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PMID:Laboratory identification of conditions predisposing to thrombosis. 214 45

We report studies of the validity and clinical application of a new amidolytic method for evaluating the activated partial thromboplastin time (APTT) compared with a conventional clotting method. The results with the two methods were well correlated for normal plasma and plasma from hemophilia patients. Congenital deficiencies of of the intrinsic coagulation pathway other than hypo- and dysfibrinogenemia detected by the amidolytic method agreed with those detected by the clotting APTT. The results with the two methods for plasma from patients under heparin treatment were statistically different, suggesting a lesser sensitivity of the amidolytic method to heparinization. The use of the amidolytic APTT reagent in combination with factor VIII and IX deficient plasma allowed the measurement of both factors. The results obtained with normal and hemophilic plasma were in agreement with those obtained with the one-stage clotting method in all except two occasions. Even though the amidolytic method demonstrated the presence of the lupus anticoagulant in the majority of tested samples of known lupus subjects, it was less sensitive to the abnormality than the clotting method.
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PMID:Automated amidolytic method for evaluating the activated partial thromboplastin time compared with a conventional coagulation method. 250 8

In hemostasis testing the development of chromogenic substrates provides an alternative to the traditional methods based on the detection of forming clots. The new technology has often replaced the clotting tests, especially in the area of single clotting factor and inhibitor assay, less frequently for global screening tests. We report studies of the validity and clinical application of two reagents for activated partial thromboplastin time (APTT) testing with chromogenic substrates in comparison with the conventional clotting method. Congenital deficiencies of the intrinsic coagulation pathway, other than hypo- and dysfibrinogenemia detected by chromogenic APTT, agreed with those detected by the clotting APTT. The results with the two methods for plasma under heparin treatment suggest a lesser responsiveness of the chromogenic methods to heparinization. The chromogenic methods demonstrated the presence of the lupus anticoagulant in the majority of tested samples of known lupus subjects, but with a lower responsiveness than the clotting method. In conclusion, we found chromogenic APTT suitable for hemostasis testing because it generally gives the same information as the conventional clotting method with the exception of heparin monitoring and lupus anticoagulant detection, where an improved sensitivity would be desirable.
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PMID:Chromogenic substrates for activated partial thromboplastin time testing: are they worth using? 251 51

A thorough screening procedure to diagnose congenital coagulation disorders must start from a careful collection of the personal and family clinical history, followed by a two-step laboratory screening. The first step is aimed at detecting the most frequent and well established causes of hemorrhage by a simple battery of laboratory tests such as bleeding time, platelet count, prothrombin time and activated partial thromboplastin time. The second step is to be performed in case of a past history of bleeding, but normal first-step laboratory screening and is aimed at detecting the less frequent abnormalities of hemostasis such as factor XIII, antiplasmin, platelet factor 3, von Willebrand factor, tissue plasminogen activator and dysfibrinogenemia, to which the first-step screening tests are not sensitive.
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PMID:Screening for congenital coagulation disorders. 263 99

A 58-year-old black woman with IgD multiple myeloma developed a hemorrhagic diathesis within 48 hours after receiving mithramycin (20 micrograms/kg/day) for therapy of hypercalcemia. Her coagulation studies were characterized by prolonged prothrombin, partial thromboplastin, thrombin, and reptilase clotting times. Her plasma and partially purified fibrinogen were inhibitory to the clotting of normal plasma and fibrinogen. The patient's isolated fibrinogen showed a normal rate of fibrinopeptide release, but her fibrin monomer aggregation was markedly abnormal. These studies document the development of a dysfibrinogenemia secondary to mithramycin toxicity.
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PMID:Acquired dysfibrinogenemia secondary to mithramycin toxicity. 294 Aug 61

We describe the coagulopathy of a 65-year-old woman with a thrombotic disorder associated with dysfibrinogenemia and lupus anticoagulant (LA). The patient's prothrombin time (PT), partial thromboplastin time (PTT), thrombin time (TT), and batroxobin time were prolonged and could not be corrected by mixing with equal volumes of normal plasma. Fibrinogen quantitation showed approximately twice as much immunoreactive as thrombin-clottable protein. The batroxobin and thrombin clotting times of the patient's isolated fibrinogen were prolonged and could not be corrected by mixture with normal fibrinogen. Turbidimetrically assessed fibrin monomer aggregation in response to thrombin, ancrod, or batroxobin and fibrin monomer reaggregation experiments disclosed clearly delayed onset and a lower maximum opacity. In other turbidimetric and clotting-time experiments, the patient's fibrinogen displayed a dose-dependent inhibition of the reaggregation of normal fibrin. Fibrinopeptide A and B release rates and sialic acid content were normal. Assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of reduced samples, the subunit structure of the patient's fibrinogen and its fully cross-linked fibrin was normal. The presence of LA was established by two techniques, the blood thromboplastin inhibition test and the platelet neutralization procedure (PNP). A positive PNP could not be produced by mixing afibrinogenemic plasma with the patient's purified fibrinogen. The patient's inactivated serum and her isolated IgG prolonged the PT and PTT of normal plasma but showed no inhibitory effect on the clotting of purified normal fibrinogen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dysfibrinogenemia and lupus anticoagulant in a patient with recurrent thrombosis. 311 49

The results are reported of a clinical and laboratory evaluation of the use of a random-access centrifugal analyzer linked to a personal computer in the management of the routine workload of a hemostasis laboratory. Over a three-month period, prothrombin time (PT), activated partial thromboplastin time (APTT), thrombin clotting time (TCT), and derived fibrinogen (Fib) were performed on a total of 929 samples. Included in the study were 448 samples from patients receiving anticoagulants (oral anticoagulants, 228; heparin, 166; heparin and warfarin, 130) and 351 samples from patients requiring coagulation screens (PT, APTT, TCT, Fib). Tests were done in parallel with tilt-tube manual techniques and the results correlated. The correlation coefficients were PT, 0.99; TCT, 0.72; APTT, 0.96; Fib, 0.97. Discrepancies were analyzed and were due to hypofibrinogenemia and hyperlipidemia. The poorer correlation coefficient of TCT was attributable both to lower reproducibility of the manual test and the effect of dysfibrinogenemia or FDPs in liver disease. In no case was an abnormality or diagnosis missed using the centrifugal analyzer. In several cases the increased sensitivity of the analyzer improved the detection of the lupus anticoagulant. The use of automation was accompanied by a major reduction in workload and reagent costs. The machine has been used to assay a wide range of coagulation tests by clot based and chromogenic substrate methods. In conclusion, a programmed centrifugal analyzer is a safe, efficient, and flexible way of automating routine coagulation tests. It widens the reportoire of tests performed in the Hemostasis laboratory by using a machine capable of being used in other areas of pathology.
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PMID:Automation of routine coagulation testing using a random access centrifugal analyzer. 334 69

Recognized causes of a prolonged thrombin clotting time (TCT) include a decreased plasma fibrinogen level, dysfibrinogenemia, paraproteinemia, heparin contamination, elevated levels of fibrin degradation products, and liver failure. We have frequently seen patients with an isolated prolonged TCT in the absence of any of these conditions and without obvious clinical impact. During a previous evaluation of hyperfibrinogenemia, we noted a surprisingly high incidence of prolonged TCT, prompting this evaluation of hyperfibrinogenemia as a possible cause. In our prospective study nine patients had a TCT more than 3 seconds longer than a matched control subject's TCT, with simultaneously normal prothrombin and activated partial thromboplastin times. Eight patients had fibrinogen levels more than 100 mg/dl above the control level (range 383 to 1,223 mg/dl). Only one patient's prolonged TCT could be explained on the basis of elevated levels of fibrin degradation products. In vitro studies in both a purified fibrinogen system and in plasma confirmed a delay in TCT with increasing initial fibrinogen concentrations. Kinetic measurements demonstrated a slowing of the normal initial increase in turbidity seen upon the addition of thrombin. Possible explanations include binding of thrombin to fibrin, or interference with fibrin assembly by excess fibrinogen. Regardless of the kinetic explanation, isolated prolongations of TCT due to hyperfibrinogenemia appear to be of minimal clinical significance.
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PMID:Hyperfibrinogenemia as a cause of prolonged thrombin clotting time. 370 22


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