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)

We describe the case of a young Lebanese woman with systemic lupus erythematosus (SLE) and a positive lupus anticoagulant (LAC) who developed right internal jugular vein and sigmoid sinus thrombosis. Coagulation studies showed that in addition to the LAC the patient was heterozygous for the factor V (FV) Leiden mutation, and C677T mutation of the methylenetetrahydrofolate reductase gene. The high prevalence of FV Leiden in the eastern Mediterranean region suggests that we should probably screen our SLE patients in this area, especially those with anticardiolipin antibodies and/or LAC who have no history of thrombosis, for this and other thrombophilia markers. The detection of such abnormalities may have major practical consequences for the long-term management of these patients to prevent further thrombotic episodes.
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PMID:Lupus anticoagulant, factor V Leiden, and methylenetetrahydrofolate reductase gene mutation in a lupus patient with cerebral venous thrombosis. 1529 2

This review focuses on symptoms, course and treatment of bleeding disorders due to hereditary coagulation factor deficiencies and acquired inhibitors, mentioning as well the pathophysiologic and molecular genetic aspects and diagnostic particularities. The review of haemophilia A and B deals with carrier problems, replacement therapy, additional haemostatic agents such as antifibrinolytics and desmopressin, the treatment of typical haemorrhages, haemophilia with inhibitors and future therapeutic options. Of the autosomal homozygous bleeding disorders such as von Willebrand disease type 3, afibrinogenaemia, factor XIII-, VII- and XI-deficiency each has its particularities influencing treatment strategies. The last chapter discusses acquired bleeding disorders such as acquired haemophilia A, von Willebrand disease, factor V deficiency and the hypoprothrombinaemia lupus anticoagulant syndrome, the different modes of inhibition, diagnostics and principles of treatment.
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PMID:[Congenital deficiencies of coagulation factors and acquired inhibitors leading to bleeding disorders]. 1552 67

A new prothrombin-based activated protein C resistance (APC-R) test is described. In this method, the patient sample is prediluted in a plasma depleted of factor V (FV). A reagent containing APC and a specific activator of FV is added. After an incubation period, clotting is initiated by the addition of the FV-dependent prothrombin activator Noscarin. We analyzed 703 samples from patients undergoing thrombophilia screening. By using a predefined cutoff ratio of 2.5, 100% sensitivity and specificity for the detection of a factor V Leiden (FVL) mutation was found. With a cutoff ratio of 1.2, a complete but narrow distinction of FVL heterozygous (n = 192) and FVL homozygous samples (n = 27) was determined. No interference by the international normalized ratio, activated partial thromboplastin time (aPTT), protein S activity, fibrinogen and factor VIII (FVIII) levels, or lupus anticoagulant ratio was detected. The new prothrombin-based APC-R assay provides improved distinction of FV wild-type and FVL carriers compared with the aPTT-based method. By the use of an FV-dependent prothrombin activator, the assay is not influenced by FVIII concentration or lupus anticoagulants.
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PMID:Improved distinction of factor V wild-type and factor V Leiden using a novel prothrombin-based activated protein C resistance assay. 1553 75

A 43-year-old patient developed factor V inhibitor 6 months after liver transplantation for primary biliary cirrhosis in association with Sjogren's syndrome/systemic lupus erythematosus. She suffered from ecchymoses in the lower extremities. The factor V inhibitor was eradicated after 10 weekly doses of 375-500 mg/m2 rituximab.
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PMID:Response of factor V inhibitor to rituximab in a patient who received liver transplantation for primary biliary cirrhosis. 1555 Dec 86

Acquired deficiencies of, or inhibitors to, factor V are considered rare events. We report a series of 14 acquired factor V deficiencies, 10 of which were confirmed to have inhibitors to factor V, as identified within Australia in the past 5 years following a multi-laboratory investigation. The initial index case seen by one laboratory was followed within 4 months by a separate similar case. This prompted local contact with colleagues (n = 20) working in other haemostasis referral laboratories to identify the current case series. In total, nearly one-half of all haemostasis referral laboratories contacted had seen a case within the past 5 years. Clinical features and the apparent associated risk of bleeding complications generally varied, as did laboratory findings and the likely causal event. There were three females and 11 males. Age ranged from 44 to 95 years (median, 81 years). The level of inhibitor ranged from undetectable to over 250 Bethesda units. The probable cause leading to development of the inhibitors ranged from exposure to bovine thrombin, exposure to antibiotics, surgery and malignancy. Of additional interest was the apparent association of anti-phospholipid antibodies in many of the cases. For example, in the two similar index cases, with factor V inhibitor titres > 200 Bethesda units, high levels of anti-cardiolipin antibodies (> 70 GPL units) were also detected. Although less clear because of inhibitor interference, many of the cases also showed evident co-associated lupus anticoagulant activity. In conclusion, we report a series of factor V inhibitors recently identified within our geographic region that would represent an annual incidence of around 0.29 cases per million Australians. Although considered a rare finding, there is a high likelihood that most haemostasis referral laboratories will see a case every five or so years.
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PMID:Factor V inhibitors: rare or not so uncommon? A multi-laboratory investigation. 1561 18

We have conducted a series of multilaboratory surveys during the last 6 years to evaluate testing proficiency in the detection of congenital and acquired thrombophilia. For lupus anticoagulant (LA) testing, participant laboratories used a panel of tests, including activated partial thromboplastin time (aPTT; 100% of laboratories), kaolin clotting time (26 to 70%), and Russell's viper venom time (RVVT; 75 to 100%). Coefficients of variation (CVs) for assays ranged from 5 to 40%. RVVT assays appeared to be most sensitive and specific for detection of LA (fewer false-negatives or -positives), although laboratories performed best when they used a panel of tests. For congenital thrombophilia, tests evaluated comprised protein C (PC), protein S (PS), antithrombin (AT), and activated protein C resistance (APCR). Most participant laboratories performed PC using chromogenic (approximately 75%), or clot based (approximately 15%) assays, with few (< 10%) performing antigenic assessments. PS was most often assessed (approximately 60%) by immunological or antigenic assays, usually of free PS, or by functional or clot-based assays (approximately 40%). AT is usually assessed by functional chromogenic assays (approximately 95%). APCR was assessed using aPTT (approximately 50%) or RVVT (approximately 50%) clot-based assays, with the aPTT APCR typically performed using factor V-deficient plasma predilution, but the RVVT APCR typically performed without. Laboratories using the RVVT APCR generally performed better in detection of factor V Leiden-associated APCR, with the aPTT method group yielding higher false-negative and/or false-positive findings (approximately 5% of occasions). Some clot-based PC and PS assays appeared to be influenced by APCR status, and yielded lower apparent PC and PS levels with positive APC resistance. The overall error rate for PC, PS, and AT was approximately 2 to 8% (i.e., false-normal interpretations for deficient plasma or false-abnormal interpretations for normal plasma). The CVs for these assays ranged from 5 to 40%, with highest CVs typically obtained with PS assays.
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PMID:Multilaboratory testing of thrombophilia: current and past practice in Australasia as assessed through the Royal College of Pathologists of Australasia Quality Assurance Program for Hematology. 1570 75

The factor V-corrected activated protein C resistance assay is the test of choice to screen for the factor V Leiden mutation. During the past 2 years, local test results with the frequently used Coatest APCR kit were evaluated and compared with the results of DNA analysis, the 'gold standard'. Samples of 278 patients were analysed by both techniques. We were unable to confirm that factor V Leiden carriers can clearly be delineated from normal individuals with the Coatest APCR test. A ratio of 2.0 as the cut-off provides 99.0% sensitivity and 95.4% specificity.To evaluate the lupus anticoagulant interference, we retrospectively analysed 16 lupus anticoagulant-positive patients. In this study, two (12.5%) showed a false-positive activated protein C resistance result. Six out of 16 (37.5%) lupus anticoagulant-positive patients were also carriers of the factor V Leiden mutation. Four out of eight (50%) false-positive activated protein C resistance results presented with an abnormal baseline clotting time. In order to prevent reporting false-positive results, a maximum baseline clotting time (65.8 s) was calculated. A new scheme for interpreting activated protein C resistance ratios was proposed.
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PMID:A 2-year retrospective analysis of laboratory testing for activated protein C resistance with a factor V-corrected activated partial thromboplastin time-based method. 1647 99

Thrombin is a naturally derived enzyme that has been widely characterized for its roles in hemostasis, inflammation, and cell signaling. Thrombin has been purified from numerous sources and used as a clinical aid for topical hemostasis for more than 60 years. Due to both its ease of use and apparent effectiveness, thrombin has become used routinely as an aid for topical hemostasis in nearly all types of surgical procedures, including but not limited to cardiovascular, orthopedic, neurologic, general, gynecologic, and dental procedures. Due to the widespread acceptance of thrombin in the surgical setting, it is conservatively estimated that at least 1 million patients in the United States are treated with topical applications of thrombin each year. Although the U.S. Food and Drug Administration (FDA) has approved a wide array of topical and biologic products to stop surgical bleeding, the only thrombin that is currently FDA approved as a stand-alone hemostatic product in the United States is derived from bovine sources. Bovine-derived thrombin has potent biologic activity in its ability to convert fibrinogen to fibrin, activate platelets, and induce vascular contraction. However, it has also been shown to induce a robust immune response following human exposure. Numerous reports have documented an array of clinical events that follow bovine thrombin exposure, which include the development of antibodies against thrombin, prothrombin, factor V, and cardiolipin. In some well-described cases, these antibodies have led to clinical syndromes that range from severe postoperative bleeding to high rates of vascular bypass graft thrombosis. Furthermore, experimental applications of bovine thrombin to various strains of mice have induced a postexposure autoimmune syndrome that was pathologically identical to lupus. Thrombin-derived products are well accepted by the surgical community for use as an aid for hemostasis, but the bovine-derived products have an unacceptably high and unnecessary association with immunologic side effects. If a nonimmunologic and effective thrombin were developed, one would expect it to be rapidly adopted by the clinical community.
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PMID:The clinical use and immunologic impact of thrombin in surgery. 1667 71

The clinical course of inflammatory bowel disease (IBD) is frequently associated with thromboembolic complications. The aim of this study was to investigate common thrombophilic markers in Turkish patients with active IBD. Twenty-seven consecutive patients with IBD who were followed-up at the Hacettepe University Hospital were recruited. All the patients were in the active disease state. International normalized ratio, activated partial thromboplastin time, lupus anticoagulant, anticardiolipin IgG, IgM antibodies, protein C, protein S, antithrombin-III, factor V, and factor II mutation of all the IBD patients and of a sex-matched and age-matched control group of non-IBD patients were measured. International normalized ratio, activated partial thromboplastin time, protein C, protein S, lupus anticoagulant, anticardiolipin IgG and IgM, and Proteins C and S mutations were comparable between the 2 groups, but antithrombin-III was significantly lower in the IBD group compared with healthy control group (P<0.0001). As a conclusion, it is reasonable to assume that there may be a subpopulation of the patients with IBD, in whom thrombophilic abnormalities might be important for either disease manifestation or for thrombotic complications. Those hemostatic abnormalities could be either inherited or secondary to the ongoing disease process. Routine screening for the common markers of thrombophilia does not seem to be warranted unless simultaneous arterial and venous thrombosis, major organ thrombosis, strong family history of thrombophilia, unusual and recurrent thrombosis resistant to standard anticoagulant therapy are present. Further studies are definitely required to clarify these complicated associations.
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PMID:The search for a common thrombophilic state during the active state of inflammatory bowel disease. 1701 37

The primary hypercoagulable states are inherited thrombotic disorders, resulting from mutations in genes encoding a plasma protein component of one of the coagulation mechanisms. The anticoagulant pathways most frequently involved include antithrombin III, protein C, and protein S deficiencies and activated protein C (APC) resistance. Around 80 % of all individuals with APC resistance carry a mutation of the factor V gene. Abnormalities in procoagulant pathways mostly concern elevated levels and/or function of procoagulant factors. Elevation in plasma prothrombin (FII) levels is associated with a FII gene mutation. Hyperhomocysteinemia as a risk factor for thrombosis is determined by genetic or dietary factors. The acquired or secondary hypercoagulable states consist of a heterogeneous group of disorders with an increased risk for developing thrombosis. Many underlying conditions (e.g., malignancies) may induce changes in the coagulation system. The risk of thrombosis is increased in individuals with antiphospholipid antibodies. They are found in about one-half of patients with systemic lupus erythematosus, but also in the course of infections, neoplastic diseases, and sometimes in apparently normal subjects. A definite molecular abnormality of hypercoagulable states can be identified in the special coagulation laboratory, using two types of molecular risk factors for thrombosis (genetic factors and abnormal laboratory phenotypes). Its recognition is useful for a prevention and/or therapy of thrombosis (Tab. 4, Ref. 10).
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PMID:Diagnostic approach to hypercoagulable states. 1712 64

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