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      A Laboratory Phenotype/Genotype Correlation of 1167 French Patients From 670 Families With von Willebrand Disease : A New Epidemiologic Picture

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          Abstract

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          Abstract

          von Willebrand disease (VWD) is a genetic bleeding disease due to a defect of von Willebrand factor (VWF), a glycoprotein crucial for platelet adhesion to the subendothelium after vascular injury. VWD include quantitative defects of VWF, either partial (type 1 with VWF levels <50 IU/dL) or virtually total (type 3 with undetectable VWF levels) and also qualitative defects of VWF (type 2 variants with discrepant antigenic and functional VWF levels). The most bleeding forms of VWD usually do not concern type 1 patients with the mildest VWF defects (VWF levels between 30 and 50 IU/dL).

          The French reference center for VWD performed a laboratory phenotypic and genotypic analysis in 1167 VWD patients (670 families) selected by their basic biologic phenotype: type 3, type 2, and type 1 with VWF levels <30 IU/dL. In these patients indeed, to achieve an accurate diagnosis of VWD type and subtype is crucial for the management (treatment and genetic counseling).

          A phenotype/genotype correlation was present in 99.3% of cases; 323 distinct VWF sequence variations (58% of novel) were identified (missense 67% versus truncating 33%). The distribution of VWD types was: 25% of type 1, 8% of type 3, 66% of type 2 (2A: 18%, 2B: 17%, 2M: 19%, 2N: 12%), and 1% of undetermined type. Type 1 VWD was related either to a defective synthesis/secretion or to an accelerated clearance of VWF. In type 3 VWD, bi-allelic mutations of VWF were found in almost all patients. In type 2A, the most frequent mechanism was a hyper-proteolysis of VWF. Type 2B showed 85% of patients with deleterious mutations (distinct from type 2B New York). Type 2M was linked to a defective binding of VWF to platelet glycoprotein Ib or to collagen. Type 2N VWD included almost half type 2N/3.

          This biologic study emphasizes the complex mechanisms for both quantitative and qualitative VWF defects in VWD. In addition, this study provides a new epidemiologic picture of the most bleeding forms of VWD in which qualitative defects are predominant.

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          Update on the pathophysiology and classification of von Willebrand disease: a report of the Subcommittee on von Willebrand Factor.

          J Sadler, U Budde, J C J Eikenboom (2006)
          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.
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            Epidemiological investigation of the prevalence of von Willebrand's disease.

            F Rodeghiero, G Castaman, E Dini (1987)
            To evaluate the prevalence of von Willebrand's disease (vWd) we carried out an epidemiological investigation among school children of the Veneto region in northern Italy. A total of 1,218 of 1,281 possible children participated in the study. They were 11 to 14 years of age, and all attended secondary schools in two distinct small areas, 70 km apart, between which there is no social contact. A blood sample was taken from each subject for determination of the blood group and von Willebrand factor (vWf) level (measured as ristocetin cofactor and expressed in IU/dL after calibration of the internal pool against an international standard), and the parents were given a questionnaire concerning hemorrhagic symptoms in the members of the family in the last three generations. Separate normal ranges were calculated for blood group O and non-O subjects (1,166 children and 289 adults) with a nonparametric method because the distribution curves of the reference values did not fit the gaussian distribution. Diagnoses of vWd were considered only for children who had low vWf levels and were members of a family with a convincing bleeding history (case of "probable vWd"). A final diagnosis was assigned if, in addition to these criteria, at least one other family member on the side with hemorrhagic history had a low vWf level. Of the 1,218 children examined, ten were classified as having vWd (0.82%). Taking into account the 90% confidence interval for the lower limit of the normal range, this figure could range from 7 (0.57%) to 14 (1.15%). All these subjects were mildly to moderately affected and presented features of heterozygous classic vWd (type I). Affected subjects were distributed evenly in the two areas examined. Our results suggest that the prevalence of vWd might be much higher than previously reported and that a different screening approach might be of use for patients with mild bleeding diathesis.
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              Sequence and structure relationships within von Willebrand factor.

              Yan-Feng Zhou, Edward Eng, Jieqing Zhu (2012)
              In the present study, we re-annotated von Willebrand factor (VWF), assigned its entire sequence to specific modules, and related these modules to structure using electron microscopy (EM). The D domains are assemblies of smaller modules visible as lobes in EM. Modules in the D-domain assemblies include von Willebrand D, 8-cysteine, trypsin inhibitor-like, E or fibronectin type 1-like domains, and a unique D4N module in D4. The D1-D2 prodomain shows 2 large connected assemblies, each containing smaller lobes. The previous B and C regions of VWF are re-annotated as 6 tandem von Willebrand C (VWC) and VWC-like domains. These 6 VWC domains correspond to 6 elongated domains that associate in pairs at acidic pH in the stem region of VWF dimeric bouquets. This correspondence is demonstrated by binding of integrin α(IIb)β(3) to the fourth module seen in EM, VWC4, which bears the VWF Arg-Gly-Asp motif. The C-terminal cystine knot domain dimerizes end-to-end in a manner predicted by homology to TGF-β and orients approximately perpendicular to the VWC domains in dimeric bouquets. Homologies of domains in VWF to domains in other proteins allow many disulfide bonds to be tentatively assigned, which may have functional implications.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Medicine (Baltimore)
                Journal ID (iso-abbrev): Medicine (Baltimore)
                Journal ID (publisher-id): MEDI
                Title: Medicine
                Publisher: Wolters Kluwer Health
                ISSN (Print): 0025-7974
                ISSN (Electronic): 1536-5964
                Publication date Collection: March 2016
                Publication date (Electronic): 18 March 2016
                Volume: 95
                Issue: 11
                Electronic Location Identifier: e3038
                Affiliations
                From the Service d’Hématologie biologique (AV, NI-B), Hôpital Lariboisière, Assistance Publique-Hôpitaux de Paris, Université Paris 7, Paris; Service de Génétique médicale (PB, MG, SB), Hôpital Hôtel-Dieu, CHU de Nantes, Nantes; Inserm UMR_S1176 (EF, CVD), Université Paris-Sud, Le Kremlin Bicêtre; Service d’Hématologie biologique (CC, CZ, SS, JG), Hôpital cardiologique, CHRU de Lille, Lille; Service d’Hématologie biologique (CT, MT), Hôpital Hôtel-Dieu, CHU de Nantes, Nantes; Service d’Hématologie biologique et Centre Régional de Traitement de l’Hémophilie (MD, RD), Hôpital de Bicêtre, Assistance Publique-Hôpitaux de Paris, Université Paris-Sud, Le Kremlin-Bicêtre; and Service d’Hématologie biologique (AB-D), Hôpital de la Côte de Nacre, CHU de Caen, Caen, France.
                Author notes
                Correspondence: Agnès Veyradier, Service d’Hématologie biologique, Hôpital Lariboisière, Paris, France (e-mail: agnes.veyradier@ 123456aphp.fr ).
                Article
                Accession ID: 03038
                DOI: 10.1097/MD.0000000000003038
                PMC ID: 4839904
                PubMed ID: 26986123
                SO-VID: ca215dc8-527f-4db5-9da9-351769a9385d
                Copyright © Copyright © 2016 Wolters Kluwer Health, Inc. All rights reserved.
                License:

                This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0, where it is permissible to download, share and reproduce the work in any medium, provided it is properly cited. The work cannot be changed in any way or used commercially. http://creativecommons.org/licenses/by-nc-nd/4.0

                History
                Date received : 20 January 2016
                Date revision received : 10 February 2016
                Date accepted : 12 February 2016
                Categories
                Subject: 4800
                Subject: Research Article
                Subject: Observational Study
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