Summary. von Willebrand disease (VWD) is a bleeding disorder caused by inherited defects in the concentration, structure, or function of von Willebrand factor (VWF). VWD is classified into three primary categories. Type 1 includes partial quantitative deficiency, type 2 includes qualitative defects, and type 3 includes virtually complete deficiency of VWF. VWD type 2 is divided into four secondary categories. Type 2A includes variants with decreased platelet adhesion caused by selective deficiency of high‐molecular‐weight VWF multimers. Type 2B includes variants with increased affinity for platelet glycoprotein Ib. Type 2M includes variants with markedly defective platelet adhesion despite a relatively normal size distribution of VWF multimers. Type 2N includes variants with markedly decreased affinity for factor VIII. These six categories of VWD correlate with important clinical features and therapeutic requirements. Some VWF gene mutations, alone or in combination, have complex effects and give rise to mixed VWD phenotypes. Certain VWD types, especially type 1 and type 2A, encompass several pathophysiologic mechanisms that sometimes can be distinguished by appropriate laboratory studies. The clinical significance of this heterogeneity is under investigation, which may support further subdivision of VWD type 1 or type 2A in the future.
Summary. Background: A quantitative description of bleeding symptoms in type 1 von Willebrand disease (VWD) has never been reported. Objectives: The aim was to quantitatively evaluate the severity of bleeding symptoms in type 1 VWD and its correlation with clinical and laboratory features. Patients and methods: Bleeding symptoms were retrospectively recorded in a European cohort of VWD type 1 families, and for each subject a quantitative bleeding score (BS) was obtained together with phenotypic tests. Results: A total of 712 subjects belonging to 144 families and 195 controls were available for analysis. The BS was higher in index cases than in affected family members (BS 9 vs. 5, P < 0.0001) and in unaffected family members than in controls (BS 0 vs. −1, P < 0.0001). There was no effect of ABO blood group. BS showed a strong significant inverse relation with either von Willebrand ristocetin cofactor (VWF:RCo), von Willebrand antigen (VWF:Ag) or factor VIII procoagulant activity (FVIII:C) measured at time of enrollment, even after adjustment for age, sex and blood group (P < 0.001 for all the four upper quintiles of BS vs. the first quintile, for either VWF:RCo, VWF:Ag or FVIII:C). Higher BS was related with increasing likelihood of VWD, and a mucocutaneous BS (computed from spontaneous, mucocutaneous symptoms) was strongly associated with bleeding after surgery or tooth extraction. Conclusions: Quantitative analysis of bleeding symptoms is potentially useful for a more accurate diagnosis of type 1 VWD and to develop guidelines for its optimal treatment.
Summary. Background: The European Network of Rare Bleeding Disorders (EN-RBD) was established to bridge the gap between knowledge and practise in the care of patients with RBDs. Objectives: To explore the relationship between coagulation factor activity level and bleeding severity in patients with RBDs. Patients/Methods: Cross-sectional study using data from 489 patients registered in the EN-RBD. Coagulation factor activity levels were retrieved. Clinical bleeding episodes were classified into four categories according to severity. Results: The mean age of patients at data collection was 31 years (range, 7 months to 95 years), with an equal sex distribution. On linear regression analysis, there was a strong association between coagulation factor activity level and clinical bleeding severity for fibrinogen, factor (F) X, FXIII, and combined FV and FVIII deficiencies. A weaker association was present for FV and FVII deficiencies. There was no association between coagulation factor activity level and clinical bleeding severity for FXI. The coagulation factor activity levels that were necessary for patients to remain asymptomatic were: fibrinogen, > 100 mg dL . Moreover, coagulation factor activity levels that corresponded with Grade III bleeding were: undetectable levels for fibrinogen, FV and FXIII, < 15 U dL )1 for combined FV + VIII; < 8 U dL )1 for FVI; < 10 U dLfor FX; and < 25 U dL )1 for FXI. Conclusions: There is a heterogeneous association between coagulation factor activity level and clinical bleeding severity in different RBDs. A strong association is only observed in fibrinogen, FX and FXIII deficiencies.
Summary. We investigated whole blood coagulation by thrombelastography (TEG) employing activation with minute amounts of tissue factor (TF). Continuous raw data captured were transformed into novel parameters, such as the maximum velocity (MaxVel) and the time to maximum velocity (t,MaxVel) of whole blood clot formation. The courses of the whole blood clot development were very similar to thrombin generation curves reported in plasma. In this assay healthy women (n ¼ 30) showed an earlier onset and an increased coagulation velocity compared to healthy men (n ¼ 30). In patients with severe hemophilia, and persons undergoing thromboprophylaxis, distinctly abnormal coagulation profiles were observed with a decrease in the MaxVel, as well as a prolonged t,MaxVel. Changes appeared to be dependent on the nature and severity of the hemostatic deficit. Preliminary studies in patients substituted with recombinant factor VIIa demonstrated a marked change in the coagulation profile, in which the MaxVel and t,MaxVel shifted towards normal in a dose-dependent way. Data suggest that the whole blood coagulation TEG profile, following activation with minute amounts of TF, may reflect the hemostatic potential in patients suspected of impaired hemostasis.
To investigate the relationship between clinical phenotype, clotting activity (FVIIc) and FVII genotype, a multi-center study of factor VII (FVII) congenital deficiency with centralized genotyping and specific functional assays was carried out. FVII mutations characterized in patients (n=313) were extremely heterogeneous (103 different, 22 novel). Clinical phenotypes ranged from asymptomatic condition, including 15 homozygotes and 14 double heterozygotes, to patients with a severe disease characterized by life-threatening and disabling symptoms (CNS, GI bleeding and hemarthrosis) strongly associated with an early age of presentation. Based on type and number of symptoms we classified 90 'severe' (median FVIIc 1.4%, IQR [Interquartile Range] 0.9-3.8), 83 'moderate' (FVIIc 3%, IQR 1-21.7), and 140 'mild' bleeders (FVIIc 14%, IQR 3-31). The significantly different FVIIc levels, and the decreasing prevalence of homozygotes or double heterozygotes among severe (98%), moderate (84%) and mild (56%) bleeders, further support our classification. The excess of females among moderate bleeders (female/male ratio = 2.6) is attributable to menorrhagia. There was no evidence for modulation of clinical features by frequent functional polymorphisms. Homozygotes for the same mutation (Ala294Val; 11125delC) with similar FVIIc and FXa generation levels, showed striking differences in clinical phenotypes. Our study depicts the ample clinical picture of this rare disorder, proposes a severity classification and provides arguments for the early management of the disease in the severe cases. Genotype-phenotype relationships indicate the presence of major environmental and/or extragenic components modulating expressivity of FVII deficiency.
BackgroundAcquired hemophilia A (AHA) is a rare bleeding disorder caused by an autoantibody to coagulation factor (F) VIII. It is characterized by soft tissue bleeding in patients without a personal or family history of bleeding. Bleeding is variable, ranging from acute, life-threatening hemorrhage, with 9-22% mortality, to mild bleeding that requires no treatment. AHA usually presents to clinicians without prior experience of the disease, therefore diagnosis is frequently delayed and bleeds under treated.MethodsStructured literature searches were used to support expert opinion in the development of recommendations for the management of patients with AHA.ResultsImmediate consultation with a hemophilia center experienced in the management of inhibitors is essential to ensure accurate diagnosis and appropriate treatment. The laboratory finding of prolonged activated partial thromboplastin time with normal prothrombin time is typical of AHA, and the diagnosis should be considered even in the absence of bleeding. The FVIII level and autoantibody titer are not reliable predictors of bleeding risk or response to treatment. Most patients with AHA are elderly; comorbidities and underlying conditions found in 50% of patients often influence the clinical picture. Initial treatment involves the control of acute bleeding with bypassing agents. Immunosuppressive treatment to eradicate the FVIII inhibitor should be started as soon as the diagnosis is confirmed to reduce the time the patient is at risk of bleeding.ConclusionsThese recommendations aim to increase awareness of this disorder among clinicians in a wide range of specialties and provide practical advice on diagnosis and treatment.
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