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)

This study assayed serum levels of FVIII Rag as a marker of endothelial injury in patients not only with frank connective tissue disease but also in those presenting with Raynaud's phenomenon and in families of those with systemic sclerosis. Elevated levels of FVIII Rag were found in 62% of patients with systemic sclerosis (SS), 38% with systemic lupus erythematosus (SLE), 67% with mixed connective tissue disease (MCTD) and in 17% with primary Raynaud's phenomenon. Twenty per cent of first degree relatives of patients with SS also demonstrated high levels of FVIII Rag and certain antibodies, namely those reacting with U1RNP and the centromere. The association between elevated FVIII Rag and antibodies linked to Raynaud's and vasculitis lends support to antibody involvement in pathogenesis. High levels of FVIII Rag in family members may reflect an increased susceptibility of endothelium to injury particularly since relatives also have a higher frequency of clinical features such as Raynaud's phenomenon.
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PMID:Factor VIII related antigen in connective tissue disease patients and relatives. 228 86

Factor XII (FXII) deficiency has been reported to be a risk factor for the development of arterial and venous thromboembolism. However, no data are available on the prevalence of FXII deficiency within the normal population. Measuring APTT and FXII activity, seven FXII deficiencies could be detected among 300 healthy blood donors. This corresponds to an incidence of FXII deficiency of 2.3%. On the basis of these data the prevalence of severe and mild FXII deficiency in the normal population can be estimated to be 1.5-3.0%. Assessment of FXII antigen levels revealed, that all seven FXII deficient individuals had FXII antigen levels matching the activity. One presented a severe FXII deficiency (1/300, 0.3%) without detectable FXII activity and an APTT prolongation of more than 120 s. The remaining six FXII deficiencies (6/300, 2.0%) were moderate variations with FXII activities ranging from 20-45% and less prolonged APTTs. Among the 300 healthy donors 16 (5.3%) subjects with prolonged APTTs were identified. Causes for APTT-prolongation were FXII deficiency (7/16), lupus anticoagulant (6/16), mild FVIII deficiency (1/16) and hepatic disorder (1/16). In the remaining sample (1/16) the cause for the prolongation of the APTT remained unexplained. Although 8.7% (26/300) of the donors had a positive family-history of thromboembolism (TE-FHx), none of the FXII deficient subjects were among those with positive TE-FHx.
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PMID:The prevalence of moderate and severe FXII (Hageman factor) deficiency among the normal population: evaluation of the incidence of FXII deficiency among 300 healthy blood donors. 816 48

We are reporting on a 47-year-old man who presented with a prolongation of the activated partial thromboplastin time (APTT) prior to orthopedic surgery. An evaluation suggested an inhibitor when his plasma prolonged a normal control APTT upon 50:50 solution of patients with normal plasma. The platelet-neutralizing procedure (PNP), anticardiolipin antibody, and antinuclear antibody (ANA) were positive. Further studies revealed decreased von Willebrand factor ristocetin cofactor (vWF:RCoF), von Willebrand factor antigen (vWF:Ag), an inhibitor to vWF, and absent high-molecular-weight vWF multimeters. Assays of FVIII:C, FIX, and FXI were nonparallel to the standard curve. Intravenous immunoglobulin (IVIG) corrected the APTT, multimeric pattern, and FVIII:C by the 7th day postinfusion. This case demonstrates the efficacy of IVIG for acquired von Willebrand's syndrome (vWS) and also represents a unique combination of a lupus-like anticoagulant and acquired vWS in a patient without the full serological requirement for systemic lupus erythematosus (SLE). Whether patients with acquired vWS and lupus inhibitors are more or less susceptible to either a thrombotic complication or hemorrhage is not established. Prospective studies for the incidence of lupus inhibitor/antiphospholipid syndromes and vWF deficiencies are needed to assess this question.
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PMID:Acquired von Willebrand's syndrome in association with a lupus-like anticoagulant corrected by intravenous immunoglobulin. 817 82

We have identified situations in which filtered plasma is provided to the laboratory for combined assessment of lupus anticoagulant, as well as other diagnostic haemostasis laboratory procedures. On the basis of laboratory investigation, however, we report that significant errors in test result interpretation can arise should this occur and depending on the specimen processing procedure, and whether filtered plasma is used for multiple assays. Citrated plasma samples were obtained from 12 normal individuals and a portion of each sample filtered using a standard 0.22 micron filter. Small volumes were frozen for later analysis. We could detect a statistically significant difference (P < 0.01) between filtered plasma and non-filtered plasma in most test results. Most notable were changes in the APTT, fibrinogen, FVIII and vWF, where results often fell outside the normal reference range of the assay. Such assay results closely mimic those obtained with type 2 von Willebrand's disease (vWD) patients, thus should filtered plasma unknowingly be tested for vWF, a wrong conclusion of type 2 vWD could easily arise. Assay results for other parameters may similarly draw incorrect conclusions, such as mild haemophilia A and dysfibrinogenaemia. In summary, we report that following filtration not only are a variety of coagulation test results altered, but reduced plasma levels of some coagulation factors could potentially lead clinicians incorrectly to diagnose congenital or acquired deficiencies or defects. We recommend that laboratories note that (other than for lupus anticoagulant) filtered plasma is not appropriate for the coagulation laboratory, and that any abnormal haemostasis test result following such combined testing be considered a potential artifact and independently repeated to confirm any putative abnormality prior to drawing any clinical conclusions.
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PMID:Filtered plasma as a potential cause of clinical misdiagnosis: inappropriate testing in a haematology laboratory. 855 77

By virtue of a severely prolonged aPTT with a normal thromboplastin time (prothrombin time) and a normal thrombin time, severe FXII deficiency has been diagnosed in a woman without a bleeding diathesis or a history of thromboembolic complications. A deficiency of a factor of the contact activation system (FXII, prekallikrein, high molecular weight kininogen) is usually diagnosed during routine coagulation tests demonstrating a prolonged aPTT. The severe and partial deficiency of FXII, of prekallikrein or high molecular weight kininogen is not associated with a bleeding tendency. In contrast, severely factor XI deficient subjects may suffer from a mild hemorrhagic diathesis, whereas FVIII deficiency (hemophilia A, autoimmune "hemophilia", von Willebrand disease) and FIX deficiency (hemophilia B) are associated with a bleeding tendency of varying severity, depending on the clotting activity of FVIII or FIX, respectively. An isolated prolongation of the aPTT due to a lupus anticoagulant, however, is frequently associated with arterial and/or venous thrombosis. Therefore, in case of a prolongation of the aPTT, its cause has to be determined.
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PMID:[A patient with isolated prolongation of aPTT without hemorrhagic diathesis anamnesis: severe, hereditary factor XII deficiency]. 1051 21

Clinico-haematological features in 10 patients with acquired Haemophilia are presented. Three patients had FVIII inhibitors following pregnancy while in six the cause for development of inhibitors could not be determined. One patient had acquired von Willebrand's disease. Lupus anticoagulant coexisted with Factor VIII inhibitors in three patients. All patients presented with sudden onset of bleeding without any past or family history of a bleeding disorder. Factor VIII inhibitor levels ranged from 8 to 512 Bethesda units in the nine patients. Immunosuppressive therapy was given to 8 patients, consisting of CVP regimen or corticosteroids with endoxan or cyclosporin. Seven patients had clinical and laboratory responses and one patient did not respond. One patient had severe postpartum bleeding with acute shock which was controlled with FEIBA. Diagnosis and management of idiopathic acquired Haemophilia, thus, continues to be a major challenge, and among acquired Haemophilia, postpartum Haemophilia has good prognosis.
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PMID:Acquired haemophilia - a study of ten cases. 1078 Nov 92

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

Hyperactivity of coagulation factor VIII (fVIII) marks hypercoagulation. FVIII enhances activity of factor IX and their combination activates factor X, which is of primary importance in prothrombin transformation into thrombin, on the phospholipid membrane. The activity of fVIII was studied in 28 patients (26 women, 2 men, mean age 49.6 +/- 7.8 years) with Sneddon's syndrome (SS). SS manifests clinically similarly to primary antiphospholipid syndrome (PAS). The leading of them are ischemic disorders of cerebral circulation (IDCC) and advanced livedo present in all the examinees. Hyperactivity of fVIII was registered in 21 (75%) of 28 patients. Most of thrombosis-related symptoms occurred more frequently in patients with high than normal activity of fVIII: ischemic strokes (91% vs 57%, p > 0.05), repeated strokes (71% vs 0%, p = 0.0014), transient IDCC (76% vs 57%, p > 0.05), vascular dementia (43% vs 0%, p > 0.05), ischemic heart disease (43% vs 0%, p > 0.05), thickening of heart valves according to echocardiography (91% vs 57%, p > 0.05), peripheral venous thromboses (24% vs 0%, p > 0.05). In high fVIII activity cardiolipin antibodies occurred more rarely (24% vs 43%, p > 0.05) but lupus anticoagulant was seen more often (47% vs 14%, p > 0.05). High fVIII activity was in 8 of 12 aPL-negative patients. It is demonstrated that elevated fVIII activity is an essential mechanism of thrombosis development in SS. The cause of this enhanced activity is suggested to be special aPL in interaction with which fVIII becomes insensitive to inactivation with protein C. The activity of protein C was normal in all the cases.
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PMID:[Clotting factor VIII in Sneddon syndrome]. 1459 91

The etiology of venous thromboembolic disease has been the subject of several recent discoveries, particularly on genetic predisposing factors. The laboratory investigation that may help to evaluate the risk for individual patients includes the measurements of coagulation inhibitors (antithrombin, protein C, and protein S) in plasma assays, the search for the factor V Leiden mutation by the plasma activated protein C resistance test (always to be confirmed by DNA analysis when abnormal), and the search for the prothrombin gene mutation by DNA analysis. Among acquired abnormalities, the most frequently involved are phospholipid-dependent autoantibodies associated or not with a subset of antibodies having an anticoagulant effect in vitro (lupus anticoagulant). Other coagulation abnormalities such as increased FVIII, FIX, or FXI levels or hyperhomocysteinemia have been suggested to be risk factors for thrombosis, although additional studies are required to definitively assess their role.
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PMID:Venous thromboembolic disease: risk factors and laboratory investigation. 1519 17

We have assessed the proficiency of diagnostic haemostasis facilities to correctly identify coagulation factor abnormalities and inhibitors. Forty-two laboratories participating in the external Quality Assurance Program (QAP) conducted by the RCPA agreed to participate and were each sent a set of eight samples (each 3 x 1 ml) for evaluation. They were asked to blind test these samples for the presence or absence of inhibitors, and where identified, to perform further analysis (including specific inhibitor analysis). In order to make the exercise more challenging, in addition to true factor inhibitors, samples were provided that reflected potential pre-analytical variables that might arise and complicate inhibitor detection or lead to false inhibitor identification. In brief, the sample set comprised a true high level factor (F) V inhibitor, a true moderate level FVIII inhibitor (but sample was defibrinogenated), a true lupus anticoagulant (LA), a normal (but slightly aged) plasma sample, a normal serum sample, a normal EDTA sample, an oral anticoagulant/vitamin K deficiency sample, and a gross heparin ( approximately 10 U/ml) contaminated sample. Sixty-three percent of participants correctly identified the true FV inhibitor as such, although the reported range varied greatly [10 to >250 Bethesda units (BU/ml)] and 46% correctly identified the true FVIII inhibitor, despite the complication of the sample presentation, although the reported range also varied (7 to 64 BU/ml). Some laboratories either failed to identify the inhibitor present, or misidentified the inhibitor type. The LA, the oral anticoagulant/vitamin K deficiency, the normal serum sample, and the normal (aged) sample were also correctly identified by most laboratories, as was the absence of specific factor inhibitors in these samples. However, a small subset of laboratories incorrectly identified the presence of specific factor inhibitors in some of these samples. The heparin sample was also correctly identified by most (68%) laboratories. In contrast, the normal EDTA sample was misidentified as a FV and/or FVIII inhibitor by most (68%) laboratories, and only one laboratory correctly identified this as an EDTA sample. Thus, we conclude that although laboratories are able, in most cases, to identify the presence of true factor inhibitors, there is a large variation in identified inhibitor levels and there are also some significant errors in identification (i.e. false negatives and misidentifications). In addition, there is a significant false positive error rate where some laboratories will identify the presence of specific factor inhibitors where no such inhibitor exists (i.e. false positives).
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PMID:Identification of factor inhibitors by diagnostic haemostasis laboratories: a large multi-centre evaluation. 1680 54


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