UMLS:C0409974 - FACTA Search

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

Citrated samples from 100 patients on i.v. heparin and 20 normal patients were tested with three batches each of three activated partial thromboplastin time (APTT) reagents: Thrombosil I (Ortho); Automated APTT (Organon Teknika) and Actin FSL (Baxter). The ratio of APTT over the geometric mean normal APTT for each heparinized sample was calculated. One batch of reagent arbitrarily chosen as a reference gave the ratios APTRREF (y). The remaining reagents to be standardized against the reference system gave the ratios APTRTEST (x). The best correlation between systems was given by log vs log x. Standard curves were prepared from the APTT ratios of the 20 normal patients and 65 of the heparinized samples. On plotting log APTRTEST vs log APTRREF the y intercept was close to zero so x was expressed in terms of y using; log x = HSI. log y, where HSI (Heparin Sensitivity Index) = slope. The APTRTEST results of the remaining 35 heparinized samples were transformed using; APTRTRANS = (APTRTEST)HSI.APTRTRANS was then compared to APTRREF to determine whether the transformation brought the results closer to the reference. We conclude that although some improvement was found by using the transform, it was not possible to mathematically relate APTT results due to a high degree of variation between results using different reagents. A standard APTT reagent for the monitoring of heparin therapy is recommended. A separate APTT reagent may be required for the screening of factor deficiencies and lupus anticoagulants.
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PMID:An attempt to standardize APTT reagents used to monitor heparin therapy. 133 84

Most people who experience venous thrombosis have normal hemostasis. Some people have inherited deficiencies of protein C, protein S, and antithrombin iii. They tend to have deep venous thrombosis which increases their risk for pulmonary emboli. Some acquired disorders which predisposes people to thrombosis include defective fibrinolysis which often occurs after surgery or infection, Trousseau's syndrome (excessive coagulant activity linked with adenocarcinoma), and lupus anticoagulant which is an immunoglobulin G or M antibody directed against negatively charged phospholipids. Hormones and probably not a dilution effect reduces free and bound protein S levels during pregnancy. Functional protein S activity is still 40-50% below normal levels 1-3 days after delivery. This decrease appears to protect against bleeding but does have venous thrombosis and pulmonary emboli during pregnancy as side effects. Non-oral-contraceptive (OC) users have greatly higher protein S levels than do OC users (28.6 mcg/ml vs. 24.3 mcg/ml; p.005) which gives more credence to the belief that hormones are responsible for the fall in protein S activity during pregnancy. OCs reduce free and total protein S levels almost 20%. Smoking may even further reduce these levels in women during pregnancy and who use Ocs. Women who have had venous thrombosis should not use OCs. Physicians should also consider family history especially age of affected family member, severity of thrombotic episodes, and the clinical setting. They should look for an underlying abnormality in patients who develop thrombosis while using OCs. If thrombosis develops during pregnancy, physicians should call for a venogram, venous duplex scanning, and, if required, invasive tests. The most sensible treatment is intravenous heparin for 5-7 days then therapeutic doses of heparin. Heparin therapy should stop before delivery and be reinstituted shortly thereafter and continued throughout the postpartum period. Physicians should take extra precautions when performing surgery on an OC user.
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PMID:Recent advances in understanding clotting and evaluating patients with recurrent thrombosis. 141 44

Maternal lupus anticoagulants and anticardiolipin antibodies are associated with a syndrome of recurrent pregnancy loss or preterm birth in live-borns, fetal growth retardation, and placental infarction. Fourteen women with one or more abnormal pregnancy outcomes (total 28 losses, one severely growth-retarded premature live-born) and no normal outcomes were treated with full-dose, subcutaneous, twice-daily heparin therapy in subsequent pregnancies. Treatment was started at an estimated gestational age of 10.3 +/- 4.0 (mean +/- SD) weeks (range 6-18), in a mean total daily dosage of 24,700 +/- 7400 units (range 10,000-36,000). Fourteen of 15 pregnancies resulted in live births at 36.1 +/- 1.7 weeks (range 33-39). The mean birth weight percentile was 57 +/- 21 (range 10-90), and Apgar scores were good to excellent. The number of placental infarcts was fewer in treated cases than in previous deliveries. Five fetuses had third-trimester or perinatal problems with no sequelae, four discovered by close maternal-fetal monitoring. There was an increased rate of preterm and cesarean deliveries. Maternal complications of treatment were few and minor, with no hypertension, preeclampsia, or serious drug-related complications. Heparin appears suitable for further investigation in the treatment of this obstetric syndrome.
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PMID:Heparin therapy for pregnant women with lupus anticoagulant or anticardiolipin antibodies. 212 Jun 42

The association of lupus anticoagulant antibodies with thrombosis, thrombocytopenia, and multiple spontaneous abortions underlines the importance of diagnostic assays which are able to distinguish these antibodies from anti-factor antibodies and factor deficiencies, as all three prolong in vitro coagulation assays measuring activated partial thromboplastin time (APTT). Heparin also prolongs the APTT assay and often interferes with the detection of lupus anticoagulant activity. The present study describes a direct and simple dilute APTT assay in which plasma is preincubated with hexagonal (II) phase phosphatidyl ethanolamine (PE). Using this system, the lupus anticoagulant antibody activity of 10 randomly selected plasmas from SLE patients was inhibited by 81.2-99.5%, while prolongation of the APTT assay by 6 different anti-factor antibody-containing plasmas, 5 factor deficient plasmas, and 6 heparin-containing plasmas remained unaffected. Inhibition was dependent on epitopes exposed when PE was presented in the hexagonal (II) phase. This data suggests that hexagonal (II) PE is specifically recognized by lupus anticoagulant antibodies in SLE patients and may play a role in the etiology of the disease.
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PMID:Distinguishing plasma lupus anticoagulants from anti-factor antibodies using hexagonal (II) phase phospholipids. 251 78

We studied the effects of heparin, dextran sulphate (MDS), gabexate mesilate (FOY), nafamostat mesilate (FUT-175) and argipidine (MD-805) on APTT, PT, thrombin time (TT) and kaolin-activated PTT (KPTT) with various concentrations of phospholipid for screening of lupus anticoagulants (LA). Heparin, MDS and FUT-175 had a greater effect on APTT than PT. On the contrary, MD-805 had a similar effect on both APTT and PT, which suggests that MD-805 inhibits thrombin generation equally on intrinsic and extrinsic coagulation pathways. Heparin and MD-805 were more effective on TT than MDS, FUT-175 and FOY at high concentrations significantly prolonged TT. But, at even higher concentrations of FUT-175, prolongation of TT was reduced contrary to our expectation. With FOY TT became less prolonged with a passage of time, suggesting time-dependent reduction of its anticoagulant activity. Heparin (0.1-0.2 U/ml) and MDS (0.1-0.3 mg/ml) did not have any effect on KPTT with high concentration of phospholipid, but did FUT-175. It suggests that phospholipid inhibits anticoagulant activity of heparin and MDS. Anti-phospholipid activity of heparin and MDS is similar to that of LA. We concluded that the differentiation of LA from heparin-like inhibitors is needed.
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PMID:[The effects of various anticoagulants on blood coagulation: with special reference to false positive lupus anticoagulants]. 251 25

Heparin is a complex polysaccharide, consisting of repeating dissacharide subunits, which exerts its anticoagulant effect by potentiating the inhibition of activated clotting proteins by the naturally occurring inhibitor antithrombin III. The primary indication for its use is venous thromboembolic disease where an average 20,000 to 40,000 USP units are initially administered by constant infusion over 24 hours to prevent extension of an established thrombus. Subsequent treatment is based on the therapeutic response, usually monitored by a global clotting test such as the activated partial thromboplastin time (APTT). The chromogenic assay based on heparin-induced inhibition of activated factor X (Xa) is a particularly useful alternative monitoring test where thrombosis complicates pregnancy or is associated with the lupus anticoagulant. Subcutaneous heparin has also been used for the primary treatment of venous thrombosis but is more frequently used either for primary or secondary prophylaxis. Primary prophylaxis schedules usually employ a low dose (5000 units) administered 8- or 12-hourly without anticoagulant control, but a titrated subcutaneous heparin regimen has been successfully reported in elective hip surgery. Although arterial thrombosis is primarily initiated by platelet aggregates forming in vivo, heparin is commonly administered for acute arterial thromboembolism including peripheral arterial occlusion and repeated transient cerebral ischaemic events. The potential efficacy of heparin in disseminated intravascular consumption (DIC) remains to be firmly established, but is indicated where symptomatic thrombotic complications occur. Thrombocytopenia and haemorrhagic side effects may complicate heparin therapy, but bleeding complications may be minimised with the development of modified low molecular weight heparin which is currently undergoing clinical trial.
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PMID:Heparin 1986. Indications and effective use. 351 Jan 15

25 patients with lupus anticoagulant (LA) and a history of thrombosis are described and the cases reported in the literature with this association are reviewed. From the combined data it is concluded that the prevalence of thrombosis in patients with LA is about 30%, the thrombosis sites are the leg veins in about 66%, the cerebral arteries in 25% and the peripheral arteries in 10% of the patients. High anticardiolipin levels are associated with a higher risk, while age of less than 10 years, low prothrombin activity and a platelet count of less than 50,000/microliter is associated with a lower risk of thrombosis. Heparin and oral anticoagulants are effective in the treatment and prevention of thrombosis without untoward risk of bleeding.
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PMID:Lupus anticoagulants and thrombosis. A study of 25 cases and review of the literature. 393 Mar 50

Coagulation disorders usually confront the emergency physician as bleeding episodes or as abnormalities of laboratory tests. Bleeding has to be treated aggressively, while pathological coagulation tests should be related to a more differentiated diagnosis at first. The most common causes of acquired coagulation disorders are liver disease, vitamin K deficiency, and disseminated intravascular coagulation (DIC). More rarely, inhibitors, external factors such as drugs or extracorporeal circulation, or other diseases such as amyloidosis are present. Since localized hemorrhage is the most common bleeding source in liver disease, endoscopic and surgical therapeutic measures, respectively, are warranted. Careful and balanced substitution therapy according to laboratory findings should be initiated simultaneously and should consist of fresh frozen plasma (FFP), which contains all components of the coagulation system physiologically balanced. Prothrombin complex concentrates should be used in emergency situations only, keeping their potential hazards in mind. Adequate vitamin K substitution is indicated in liver disease as well as in coagulopathy due to vitamin K deficiency. Management of DIC primarily consists of aggressive treatment of the underlying disease. Substitution therapy is difficult and should be carefully monitored by the adequate laboratory tests. FFP is the adequate source of both procoagulants and inhibitors but may cause certain problems. Heparin therapy can be beneficial but is not recommended generally. Antithrombin III substitution cannot be assumed as established therapy so far. Inhibitors can lead to bleeding, but the most common inhibitor, lupus anticoagulant, rather predisposes to thrombosis. In bleeding patients with inhibitors against single clotting factors, treatment consists of adequate substitution before initiating the diagnostic workup.
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PMID:Management of acquired coagulation disorders in emergency and intensive-care medicine. 871 94

Heparin and heparan sulfate are related glycosaminoglycans which demonstrate high-affinity interactions with a number of proteins, including antithrombin III. The immunogenicity of heparin has been reported previously employing heparin-protein conjugates as immunogens and as antigens in solid-phase assays. Previous studies also demonstrate that anti-heparin antibodies play a role in autoimmune diseases including systemic lupus and anti-phospholipid syndrome and in patients who receive heparin for therapeutic purposes. In the current study, we investigated the expression of monoclonal anti-heparin antibodies in nonimmunized, autoimmune MRL/lpr/lpr++ mice employing a liquid-phase radioimmunoassay. The Kd of monoclonal IgG2b autoantibodies for heparin was approximately 10(-8)M. Anti-heparin antibodies were precipitating, and were not polyreactive. The IgG monoclonal antibodies described in this study represent an immunological instance of a specific, high-affinity heparin-protein interaction.
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PMID:Autoimmune MRL mice express high-affinity IgG2b monoclonal autoantibodies to heparin. 880 43

Repeated fetal loss presents a challenge for both patients and health care professionals. Antiphospholipid syndrome (APS) may account for as much as 10% to 48% of recurrent fetal loss. Suggested pathophysiologic mechanisms of APS in fetal loss include the action of autoantibodies, the lupus anticoagulant, and anticardiolipin antibodies on the endothelial cells, which may lead to platelet aggregation, thrombosis, placental infarcts, and subsequently reduced oxygenation to the fetus. This study explores fetal loss caused by APS, its pathophysiologic features, treatment, and nursing implications. Heparin therapy is presented as a method to prevent intrauterine growth retardation and fetal death. The educational and psychosocial needs of patients receiving this therapy and necessary patient follow-up and coordination of services are reviewed.
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PMID:Prevention of recurrent fetal loss caused by antiphospholipid syndrome. 881 26

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