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:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

This review concentrates on those disorders in which superficial thrombophlebitis can be a significant or presenting clinical sign. Primary hypercoagulable states are those conditions associated with an increased risk of thrombosis caused by a specific measurable defect in the proteins of coagulation and/or fibrinolytic systems. These disorders are frequently inherited and include deficiencies of antithrombin III, heparin cofactor 2, protein C, protein S, abnormal fibrinolytic activity, dysfibrinogenemia, and Hageman trait. Patients with a lupus anticoagulant and anticardiolipin antibody syndrome with thrombotic episodes are also considered to have a primary hypercoagulable state. The physiology, pathophysiology, clinical characteristics, and treatment of primary hypercoagulable states are reviewed.
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PMID:Superficial thrombophlebitis. I. Primary hypercoagulable states. 219 91

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

Since most patients with thrombophilia in Israel are referred for diagnosis to our center, it was possible to estimate the relative frequency of the hereditary disorders leading to thrombophilia. 107 unrelated patients were evaluated over 4 years. Diagnoses were established in 23 patients (21.5%) while in 84 (78.5%) no abnormality was detected. Antithrombin III deficiency was found in 8 patients (7.5%), dominant protein C deficiency in 6 (5.6%), recessive homozygous protein C deficiency in 1, protein S deficiency in 3 (2.8%) and dysfibrinogenemia in 1. Four additional patients (3.7%) had a lupus anticoagulant. The frequency of deep vein thrombosis and pulmonary embolism was similar in patients with and without a definite diagnosis. Thrombosis of visceral or cerebral vessels and a positive family history were more frequent among patients in whom a definite diagnosis was made. In both groups there was a substantial lag between the time of presentation of the first thrombotic episode and the time of evaluation. Since the number of referred patients with thrombophilia has gradually increased over the period of the study, it is at present impossible to establish the prevalence of the various hereditary disorders leading to thrombophilia in the population.
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PMID:The relative frequency of hereditary thrombotic disorders among 107 patients with thrombophilia in Israel. 252 86

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

Some molecular defects of components of the coagulation or fibrinolytic system are associated with thromboembolism. One possibility is that physiologic inhibitors of the coagulation system have an abnormal function e.g. protein C, protein S, antithrombin III and cofactor II of heparin. Also a hindered activation of the fibrinolytic system may predispose to thrombosis; the impaired activation may be due to deficient synthesis and/or release of tissue-plasminogen activator, an increased level of its inhibitor or a functional defect of the plasminogen molecule. A few cases of congenital dysfibrinogenemia have been described in which the functional defects of the molecule are held responsible for recurrent thrombosis. An acquired thrombotic disorder is due to the presence of immunoglobulins which prolongs phospholipid-dependent coagulation by binding to epitopes of some phospholipids. This so-called lupus anticoagulant was originally described in patients with systemic lupus erythematosus but is a misnomer as it is more frequently encountered in patients without lupus.
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PMID:[Molecular defects of coagulation factors and of the fibrinolytic system associated with thromboembolism]. 354 55

This review has stressed the common hereditary and acquired blood protein defects associated with thrombosis. The most common of the hereditary defects appear to be antithrombin, protein C, and protein S deficiency, and the most common acquired defects are anticardiolipin antibodies and the lupus anticoagulant. Therefore, these are the defects which should first be searched for in an individual with unexplained thrombosis. If these more common defects are not found, the rarer defects, including HC-II, plasminogen, or TPA deficiency, dysfibrinogenemia, elevated PAI-1, or heterozygous homocystinemia should be looked for. The incidence of activated protein C co-factor deficiency (APC resistance) is not yet clear but may also represent a common defect. PAI-1 defects may, with time, be shown to be common. Finding these defects has important implications for therapy for the individual patient and for the institution of family studies to identify, inform, and possibly treat others at risk. It is expected that as knowledge of hemostasis expands, more hereditary and acquired defects, such as elevated lipoprotein(a) or defects of extrinsic (tissue factor) pathway inhibitor (EPI, TFPI), may be associated with enhanced risks for thrombosis.
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PMID:Blood protein defects associated with thrombosis. Laboratory assessment. 778 Dec 75

This review has stressed the common hereditary and acquired blood protein defects associated with thrombosis. The most common of the hereditary defects appear to be antithrombin, protein C, and protein S deficiency and the most common acquired defects are anticardiolipin antibodies and the lupus anticoagulant. Therefore these are the defects that should first be looked for in an individual with unexplained thrombosis. If these more common defects are not found, then the rarer defects, including heparin cofactor II, plasminogen or tissue plasminogen activator deficiency, dysfibrinogenemia, or elevated PAI-1 should next be sought. The importance of finding these defects has significant implications for therapy of the individual patient and for institution of family studies to identify, inform, and possibly treat others at risk. It is expected that as knowledge of hemostasis expands, more hereditary and acquired defects, such as elevated lipoprotein(a) or defects of extrinsic (tissue factor) pathway inhibitor may be associated with enhanced risks of thrombosis.
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PMID:Syndromes of hypercoagulability and thrombosis: a review. 805 29


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