UMLS:C0024141 - FACTA Search

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Query: UMLS:C0024141 (systemic lupus erythematosus)
44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies of patients with thromboembolic disease have revealed an association either with hereditary anticoagulant protein deficiencies or with defects in the fibrinolytic system. To obtain a more comprehensive picture and to investigate which analyses are useful in the evaluation of such patients, we have performed an extensive laboratory investigation in 439 individuals with thromboembolic disease. Anticoagulant protein deficiencies were found in 24 patients. Deficiencies of protein C (n = 10) and protein S (n = 9) were most common followed by deficiencies of antithrombin III (n = 3) and plasminogen (n = 2). Six of the nine protein S deficient patients demonstrated a selective deficiency of free protein S with normal total protein S concentrations. To diagnose protein C and S deficiencies among the 201 patients receiving oral vitamin K antagonists, the concentrations of protein C and S were compared with the mean concentration of several other vitamin K-dependent proteins. One protein C and three protein S deficiencies were identified among the treated patients. The number of protein C deficiencies found in this group was significantly lower than the number found among untreated patients. Although fewer protein S deficiencies were also identified among the treated patients, than in the untreated group, the difference was not statistically significant. The results suggest that protein C deficiencies went undetected in the treated group and that oral anticoagulant therapy should be discontinued before efforts to diagnose protein C deficiency are made. We found no cases with heparin cofactor II deficiency. Lupus anticoagulant was present in 10 patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thromboembolic disease--critical evaluation of laboratory investigation. 832 78

Patients with systemic lupus erythematosus (SLE) have an increased risk of thrombosis and this is increased in the presence of antiphospholipid antibodies (APA). These APA are also associated with thrombosis in patients who do not have SLE. We compared haemostatic parameters in SLE patients with and without APA, and also compared patients who had APA but not SLE with healthy normal controls. No relationships between the natural anticoagulants, antithrombin III, heparin cofactor II, protein C and protein S, and the presence of APA were found. In the patients with SLE both tissue plasminogen activator antigen and plasminogen activator inhibitor (PAI) were increased, but these changes were not due to APA which had no effect on fibrinolysis in these patients. In the patients with APA who did not have SLE the fibrinolytic response to venous occlusion was reduced due to raised levels of PAI; similar changes have, however, been reported in some patients with idiopathic thrombosis.
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PMID:The fibrinolytic response to venous occlusion and the natural anticoagulants in patients with antiphospholipid antibodies both with and without systemic lupus erythematosus. 170 91

Components of the natural anticoagulant system (NAS) and anticardiolipin antibodies were examined in 21 patients with lupus anticoagulant (LA), 13 of whom had past histories of thrombotic episodes. No relationship could be shown between the antigenic levels of protein C and S (PC, PS) and a history of thrombosis. Inhibition of the anticoagulant activity of activated protein C (APC) was observed using plasma from 20/21 patients when phospholipid vesicles were used as the surface for the coagulation reaction. This effect was not affected by the addition of PS. When platelet membranes were employed only 2/21 patients demonstrated inhibition of APC. Under the latter condition, PS functional activity was inhibited in 7/21 patients, six of whom had a past history of thrombosis. Reduced antithrombin III or heparin cofactor II levels were observed in a total of 4/21 patients and may have contributed to the development of thrombosis in three of these patients. Antibodies specifically directed against these proteins were not detected suggesting the possibility of an associated constitutional deficiency. Anticardiolipin antibodies, though elevated in 17/21 patients, did not serve as a useful marker for an increased risk of thrombosis, and the level did not correlate with inhibition of the activity of APC or PS. We conclude that the mechanism of thrombosis in patients with LA is multi-factorial. A subset of patients in whom LA specifically inhibits PS function may represent patients who are at significant risk from thrombosis.
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PMID:Studies of natural anticoagulant proteins and anticardiolipin antibodies in patients with the lupus anticoagulant. 217 38

The coagulation system can be considered as a balance in which clotting and fibrinolysis have to be in a state of equilibrium. Increased fibrin formation or decreased fibrinolysis can predispose to thromboembolic diseases. Derailments in the clotting system leading to thrombosis center around the regulatory mechanisms, antithrombin III, protein C, protein S and possibly heparin cofactor II. Many cases of congenital or acquired deficiencies or abnormalities or antithrombin III, protein C and S have been described, all predisposing to thrombotic events. Alterations of the fibrinolytic system can also be associated with thromboembolisms. In particular, abnormalities of plasminogen, tissue plasminogen activator release and elevated tissue plasminogen activator inhibitor levels seem to be associated with thromboses. Conceivably also factor XIIa (Hageman factor) and prekallikrein deficiencies, when associated with thrombosis, exert their mechanism through the fibrinolytic system. Finally, about 50% of patients with lupus anticoagulant seem to suffer from thromboembolic disorders. The pathophysiology of this particular association is not known with certainty. Undoubtedly, there will be more disturbances discovered in the hemostasis system that are associated with increased intravascular fibrin formation. The understanding of these derailments is at this time only in its earliest stages of development.
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PMID:Pathophysiology of thrombophilic states. 246 10

Lupus anticoagulants (LA) are IgG or IgM antibodies against phospholipids which in vivo represent an important thrombophilic factor despite their in vitro anticoagulant activity. We investigated the fibrinolytic system of 20 patients with connective tissue disease and positive LA, compared to a control group of 24 age- and disease-matched patients without LA. There was no statistically significant difference of alpha 2-antiplasmin, plasminogen, fibrinogen, t-PA activity, D-dimers and heparin cofactor II, between the two groups. Although t-PA was uniformly low in both groups, plasminogen activator inhibitor activity (PAI) was significantly higher in LA cases (p less than 0.001). Increased PAI levels represent an inhibitory factor of the fibrinolytic defense mechanism, which together with other functional deviations may contribute to the thrombophilic tendency of LA patients.
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PMID:Impaired fibrinolysis as an essential contribution to thrombosis in patients with lupus anticoagulant. 250 94

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

This article has stressed the common hereditary and acquired blood protein defects associated with thrombosis. The commonest hereditary defects appear to be antithrombin, protein C, and protein S deficiency, and the commonest 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 commoner defects are not found, the rarer defects, including HC-II, plasminogen or t-PA deficiency, dysfibrinogenemia, or elevated PAI-1, should next be sought. The incidence of activated protein C cofactor deficiency is not yet clear but may also represent a common defect. Likewise, PAI-1 defects may, with time, be shown to be quite common. 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:Hypercoagulability and thrombosis. 817 Feb 63

We have established a system for etiological analysis of thrombophilia which includes assays of antithrombin III, protein C, protein S, plasminogen, fibrinogen, heparin cofactor II and lupus anticoagulants as well as gene analysis. The analysis conducted on 115 patients with venous thrombosis, arterial thrombosis and small vessel thrombosis revealed that forty-one patients(36% of the examined patients) were accompanied with decreased activities of protein S, protein C, antithrombin III and plasminogen. Eleven candidate causal mutations were found by gene analysis. These studies indicate that a comprehensive examination is instrumental in identifying and confirming the etiology in patients with thrombophilia.
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PMID:[Etiological analysis of thrombophilia]. 939 41

Various coagulation abnormalities were reported in HIV-infected patients. Cases of severe thrombocytopenia were first observed in contaminated homosexual males, as well as prolonged APTT due to the presence of lupus-like anticoagulant with a frequency in the range 8 to 70% of the studied patients. Even if lupus anticoagulant could be evidenced in asymptomatic patients, it frequently occurred during acute opportunistic infections such as Pneumocystis carinii. More recently, increased prevalence of protein S and heparin cofactor II deficiency, two physiological coagulation inhibitors were demonstrated in HIV-infected patients. The same applied for hypoalbuminemia-related fibrin polymerization defects which induced prolonged thrombin and reptilase clotting times. Abnormalities of the fibrinolytic system were also reported, such as increased levels of both tissue-type plasminogen activator and type 1 plasminogen activator inhibitor or decreased levels of histidine-rich glycoprotein. Even if the acute phase response could play a key-role, the pathogenesis of these abnormalities is not fully understood, so far. In addition, their clinical consequences have not been extensively investigated, but hemorrhage appeared to be uncommon. Moreover, D-dimer levels were found increased in HIV-infected patients, suggesting that HIV-infection might be associated with a so-called prethrombotic state, which could lead to clinical thrombosis in some HIV-infected patients (2%).
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PMID:[Hemostasis and human immunodeficiency virus (HIV) infection]. 975 40

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