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

The range of tests used in the evaluation of thrombophilia has been altered by the recent recognition of common genetic defects predisposing to thrombosis such as factor VLeiden (FVR506Q), enzyme deficiencies causing hyperhomocysteinemia, and improvement in the sensitivity and utilization of assays for antiphospholipid antibodies. In this study, the outcomes of laboratory evaluation of 402 patients with thrombophilia were reviewed and correlated with clinical data. A predisposing factor was present (positive diagnosis, group A) in 110 patients (27%), the test results of 111 patients (28%) could not be definitively interpreted (equivocal results, group B), and the test results of 181 (45%) were normal (group C). The median age of the group A patients was 48 years (range, 3.7-88 years), suggesting that evaluation of patients over the age of 50 is worthwhile. Of the 110 patients in group A, 84% had single defects and 16% had combined defects. The most common defect was factor VLeiden (44 patients). Equal numbers of patients presenting with arterial and venous thromboses were evaluated. Patients with arterial events were less likely to have a definable laboratory defect (33 of 132 [25%]) than were those with venous events (50 of 136 [37%]). Factor VLeiden was the most frequent finding in patients with venous events, and lupus anticoagulant or anticardiolipin antibodies were the most frequent findings in patients with arterial events. Positive diagnoses were made in patients on anticoagulants, indicating that this should not preclude investigation. Our study confirms the need for thorough evaluation to assess thrombotic risk, and it reflects the impact of newly identified thrombophilic disorders on the expected outcome of laboratory evaluation for thrombophilia.
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PMID:The results of diagnostic studies for thrombophilia in a large group of patients with a personal or family history of thrombosis. 980 54

Until recently, laboratory diagnosis of thrombophilia was based on investigation of the plasmatic anticoagulant pathways to detect antithrombin, protein C, and protein S deficiencies and on the search for dysfibrinogenemia and anti-phospholipid antibodies/lupus anticoagulants. More recently, laboratory investigations have been expanded to include activated protein C (APC) resistance, attributable or not to the presence of the factor V Leiden mutation; hyperprothrombinemia attributable to the presence of the prothrombin gene mutation G20210A; and hyperhomocysteinemia attributable to impairment of the relevant metabolic pathway because of enzymatic and/or vitamin deficiencies. All of the above are established congenital or acquired conditions associated with an increased risk of venous and, more rarely, arterial thrombosis. Testing is recommended for patients who have a history of venous thrombosis and should be extended to their first-degree family members. Because most of the tests are not reliable during anticoagulation, it is preferable to postpone laboratory testing until after discontinuation of treatment. Whenever possible, testing should be performed by means of functional assays. DNA analysis is required for the prothrombin gene mutation G20210A. Laboratory diagnosis for anti-phospholipid antibodies/lupus anticoagulant should be performed by a combination of tests, including phospholipid-dependent clotting assays and solid-phase anti-cardiolipin antibodies. Hyperhomocysteinemia can be diagnosed by HPLC methods or by fluorescence polarization immunoassays.
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PMID:Laboratory investigation of thrombophilia. 1151 92

Neuropsychiatric involvement in systemic lupus erythematosus (NPSLE) is considered as one of the major manifestations of the disease. Epilepsy has been documented in about 10% of patients with systemic lupus erythematosus (SLE). It is well known that vascular damage in SLE occurs because of multiple mechanisms including hypercoagulation. It has been recently reported that in SLE patients raised levels of homocysteine are associated with arterial thrombosis. Hyperhomocysteinaemia is a condition due to both genetic and non-genetic factors. The most common genetic defect in homocysteine metabolism is a decreased activity of a common 5,10-methylenetetrahydrofolate reductase (MTHFR) variant (677C -->T, a thermolabile form). In this paper we describe the epileptic manifestations in six out of 55 SLE patients. Seizures were the SLE onset symptom for three patients, appeared during the active disease in two cases, and occurred during a period of clinical remission in one patient. In all cases we documented the association of epilepsy with the MTHFR mutation: the homozygosity form was present in one case (16.7%), and heterozygosity in five cases (83.3%). Nevertheless, levels of homocysteine in plasma were in the normal range. Moreover, we found a decrease in the level of S protein values in one case, a high titre positivity of anticardiolipin antibodies (aCL) (IgG and IgM) in three patients and low titre positivity (IgG) in one patient, and lupus anticoagulant (LAC) positivity in four cases. In conclusion, we believe that the abnormalities of coagulation present in our patients could be related to epileptogenesis or to an alteration of the seizure threshold.
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PMID:The 677C --> T mutation in the methylenetetrahydrofolate reductase (MTHFR) gene in epileptic patients affected by systemic lupus erythematosus. 1202 72

Venous thromboembolism (VTE) is a chronic rather than acute disease. After withdrawal of secondary thromboprophylaxis, many patients will experience a subsequent episode of thrombosis. Of these patients, approximately 5% will die from pulmonary embolism. The risk of recurrent VTE depends on the number of risk factors and their severity. High-risk patients, i.e. those with a natural coagulation inhibitor deficiency, recurrent thrombosis, active cancer, the lupus anticoagulant or compound clotting defects most probably benefit from indefinite oral anticoagulation. In these patients the risk of bleeding due to anticoagulant treatment seems to be outweighed by the risk of VTE. Patients with hyperhomocysteinemia or high factor (F) VIII plasma levels are also at an increased risk of recurrence. The optimal duration of secondary thromboprophylaxis in these patients is currently under investigation. Patients with the heterozygous F V Leiden mutation or the G20210A mutation in the F II gene do not require extended anticoagulation since their risk of recurrence is similar as in patients without the aforementioned mutations. Patients with VTE secondary to surgery or trauma have a relatively low risk of recurrence. In these patients short-term secondary thromboprophylaxis (6 to 12 weeks) is justified whereas patients with a first episode of spontaneous VTE should be treated with oral anticoagulants for a longer period of time (3 to 6 months).
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PMID:The risk of recurrent venous thromboembolism. 1223 19

Hereditary prothrombotic states of clinical importance include factor V Leiden, the prothrombin 20210A mutation, deficiencies of protein C, protein S, or antithrombin, sickle cell disease, and hyperhomocysteinemia. Major acquired prothrombotic states include cancer, myeloproliferative disorders, the antiphospholipid syndrome, and heparin-induced thrombocytopenia. Because most of the hereditary prothrombic states are not established risk factors for arterial thrombosis, routine laboratory testing in most patients with ischemic stroke should be limited to complete blood count, lupus anticoagulant, anticardiolipin antibodies, and plasma total homocysteine. Additional testing for factor V Leiden, prothrombin 20210A, antithrombin, protein C, and protein S may be indicated for patients under the age of 50 or those with paradoxical cerebral embolism. The treatment of acute ischemic stroke in patients with prothrombotic states is similar to that in patients without an identifiable prothrombotic condition, and may include antiplatelet agents, anticoagulants, or thrombolytic therapy in patients who otherwise meet eligibility criteria. The potential benefit of chronic anticoagulation therapy for the primary or secondary prevention of stroke in patients with prothrombotic states has not been addressed in controlled clinical trials. Specific therapeutic approaches for the prevention of stroke are established for patients with sickle cell disease, myeloproliferative disorders, and heparin-induced thrombocytopenia, and are under investigation for hyperhomocysteinemia and the antiphospholipid syndrome.
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PMID:Prothrombotic States that Predispose to Stroke. 1235 68

Hyperhomocysteinaemia is strongly associated with increased relative risk of occlusive vascular disease, mainly of the carotid and coronary arteries. The aim of our study was to assess whether raised plasma homocysteine is a risk factor for thrombotic events in patients with systemic lupus erythematosus (SLE), a condition known to be associated with premature atherothrombotic complications. The study included 34 consecutive consenting SLE patients who were seen in the Rheumatology Unit of Al-Amiri hospital, one of the main teaching hospitals in Kuwait. Twenty consenting healthy subjects were included in the control group. Twenty-four patients were grouped as SLE without thrombosis and 10 had different types of thromboses. Vitamin B(12), folate, anticardiolipin antibodies (IgG and IgM), activated partial thromboplastin time (APTT) and total homocysteine level were measured for both patients and controls. A raised homocysteine concentration was defined as plasma homocysteine level above 9.4 mmol/l. Hyperhomocysteinaemia was found in 21 (61.8%) SLE patients. Low levels of folate and vitamin B(12) were significantly associated with high concentrations of plasma homocysteine (r = -0.35 and -0.39, respectively, P<0.01). SLE patients with elevated homocysteine concentration have a threefold increase in odds ratio of thrombotic events after adjusting for other risk factors (male sex, shortened APTT, treatment with prednisone, low folate and vitamin B(12) levels). We concluded that homocysteine is an independent risk factor for thrombosis in patients with SLE and is potentially modifiable.
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PMID:Hyperhomocysteinaemia and risk of thrombosis in systemic lupus erythematosus patients. 1244 27

High factor IX (FIX) is a risk factor of deep vein thrombosis. The impact of high FIX on the risk of recurrent venous thrombosis is unknown. We prospectively followed 546 patients after anticoagulation for a first spontaneous venous thromboembolism. Patients with a natural coagulation inhibitor deficiency, lupus anticoagulant or cancer were excluded. At 3 years, the likelihood of recurrence was 23% among patients with high FIX (exceeding the 75th percentile) compared with 11% among patients with lower levels. Among patients with high FIX, the relative risk of recurrence was 2.2 (95% CI: 1.3-3.6) before and was 1.6 (95% CI: 1.0-2.8) after adjustment for age, gender, duration of anticoagulation, FV Leiden, FII G20210A, high FVIII and hyperhomocysteinemia. Compared with patients with low factor IX (< 138 IU dL(-1)) and low FVIII (</= 234 IU dL(-1)), the relative risk of recurrence was 1.5 among patients with high FIX and low FVIII, 2.7 among patients with low FIX and high FVIII and 6.6 among patients with high FIX and high FVIII. High levels of FIX confer an increased risk of recurrent venous thromboembolism and enhance the risk of recurrence among patients with high FVIII.
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PMID:The risk of recurrent venous thromboembolism among patients with high factor IX levels. 1287 34

Until recently the laboratory diagnosis of thrombophilia consisted on investigation of the plasmatic anticoagulant pathways and the search for dysfibrinogenemia and antiphospholipid antibodies/lupus anticoagulants. More recently, the laboratory investigation has been expanded by including activated protein C (APC) resistance, due or not to the presence of the factor V Leiden mutation; hyperprothrombinemia, due to the presence of the prothrombin mutation G20210A and hyperhomocysteinemia, due to impairment of the relevant metabolic pathway because of enzymatic and/or vitamin deficiency. Testing for thrombophilia may be useful for many reasons. First, the results of testing may provide valuable information to assess the risk of recurrence in the proband. Second, testing family members is useful for prophylactic and diagnostic purposes. Third, the identification of patients bearing combined defect helps to identify those at increased risk for thrombosis. Testing is recommended for patients with a past history of thrombosis and should be extended to their first-degree family members. Since most of the tests are not reliable during anticoagulation, it is preferable to postpone laboratory testing until after discontinuation of the treatment. Whenever possible testing should be performed by means of functional assays. DNA analysis is required for the prothrombin mutation G20210A. Laboratory diagnosis for antiphospholipid antibodies/lupus anticoagulant should be performed by a combination of tests including phospholipid-dependent clotting assays and solid phase anticardiolipin antibodies. Hyperhomocysteinemia may be assessed by high-pressure liquid chromatography methods, or by fluorescence polarization immunoassays.
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PMID:Laboratory diagnosis of thrombophilic states: where do we stand? 1367 50

We investigated the association between inherited and acquired maternal thrombophilias and adverse pregnancy events. A cohort of 491 patients with a history of adverse pregnancy outcomes was evaluated for activated protein C resistance, factor V Leiden and prothrombin G20210A mutations, hyperhomocysteinemia, deficiencies of antithrombin, protein C and S and both anticardiolipin antibodies and lupus anticoagulants. The study had an 80% power to detect a 15% difference in the prevalence of thrombophilia for 1(st) trimester loss. In our high-risk cohort the presence of 1 maternal thrombophilia or more than one thrombophilia were found to be protective of recurrent losses at < 10 weeks (1 thrombophilia: OR: 0.55, 95% CI: 0.33-0.92; > 1 thrombophilia: OR: 0.48, 95%CI:0.29-0.78). In contrast, the presence of maternal thrombophilia(s) was modestly associated with an increased risk of losses > 10 weeks (1 thrombophilia: OR:1.76, 95%CI: 1.05-2.94, >1 thrombophilia: OR:1.66, 95%CI:1.03-2.68). Women who experienced only euploid losses were not more likely to have an identified thrombophilia than women who experienced only aneuploid losses (OR 1.03; 0.38-2.75). The presence of maternal thrombophilia was associated with an increased risk of fetal loss after 14 weeks, fetal growth restriction, abruption and preeclampsia. There was a significant "dose-dependent" increase in the risk of abruption (OR:3.60, 95%CI: 1.43-9.09) and preeclampsia (OR:3.21, 95%CI:1.20-8.58). In conclusion, these data indicate maternal thrombophilias are not associated with pregnancy wastage prior to 10 weeks of gestation.
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PMID:Maternal thrombophilias are not associated with early pregnancy loss. 1496 Nov 56

Thromboembolism in pregnancy and the puerperium and inherited or acquired thrombophilia are associated. Thrombophilia can be revealed by pregnancy. Thrombotic risk during pregnancy and the puerperium is higher in asymptomatic women with than without thrombophilia. Antithrombin deficiency, combined deficiencies and homozygous or double-heterozygotes factor V Leiden and factor II G 20210 A mutations are associated with a higher thrombotic risk than heterozygote mutations or protein S and C deficiencies, whereas hyperhomocysteinemia does not appear as a risk factor for maternal thromboembolic disease. Antiphospholipid syndrome with lupus anticoagulant is strongly associated with thrombotic risk in pregnancy and the puerperium. Further studies are required to assess the thrombotic risk in women with preeclampsia as well as early or late recurrent pregnancy loss.
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PMID:[Risk factors of thromboembolism associated with pregnancy and the puerperium. Role of inherited and acquired thrombophilia]. 1502 82


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