BACKGROUND: Type 1 von Willebrand disease (VWD) is a congenital bleeding disorder characterized by a partial quantitative deficiency of plasma von Willebrand factor (VWF) in the absence of structural and/or functional VWF defects. Accurate assessment of the quantity and quality of plasma VWF is difficult but is a prerequisite for correct classification. OBJECTIVE: To evaluate the proportion of misclassification of patients historically diagnosed with type 1 VWD using detailed analysis of the VWF multimer structure. PATIENTS AND METHODS: Previously diagnosed type 1 VWD families and healthy controls were recruited by 12 expert centers in nine European countries. Phenotypic characterization comprised plasma VWF parameters and multimer analysis using low- and intermediate-resolution gels combined with an optimized visualization system. VWF genotyping was performed in all index cases (ICs). RESULTS: Abnormal multimers were present in 57 out of 150 ICs; however, only 29 out of these 57 (51%) had VWF ristocetin cofactor to antigen ratio below 0.7. In most cases multimer abnormalities were subtle, and only two cases had a significant loss of the largest multimers. CONCLUSIONS: Of the cases previously diagnosed as type 1 VWD, 38% showed abnormal multimers. Depending on the classification criteria used, 22 out of these 57 cases (15% of the total cohort) may be reclassified as type 2, emphasizing the requirement for multimer analysis compared with a mere ratio of VWF functional parameters and VWF:Ag. This is further supported by the finding that even slightly aberrant multimers are highly predictive for the presence of VWF mutations.
BACKGROUND: Type 1 von Willebrand disease (VWD) is a congenital bleeding disorder characterized by a partial quantitative deficiency of plasma von Willebrand factor (VWF) in the absence of structural and/or functional VWF defects. Accurate assessment of the quantity and quality of plasma VWF is difficult but is a prerequisite for correct classification. OBJECTIVE: To evaluate the proportion of misclassification of patients historically diagnosed with type 1 VWD using detailed analysis of the VWF multimer structure. PATIENTS AND METHODS: Previously diagnosed type 1 VWD families and healthy controls were recruited by 12 expert centers in nine European countries. Phenotypic characterization comprised plasma VWF parameters and multimer analysis using low- and intermediate-resolution gels combined with an optimized visualization system. VWF genotyping was performed in all index cases (ICs). RESULTS: Abnormal multimers were present in 57 out of 150 ICs; however, only 29 out of these 57 (51%) had VWFristocetin cofactor to antigen ratio below 0.7. In most cases multimer abnormalities were subtle, and only two cases had a significant loss of the largest multimers. CONCLUSIONS: Of the cases previously diagnosed as type 1 VWD, 38% showed abnormal multimers. Depending on the classification criteria used, 22 out of these 57 cases (15% of the total cohort) may be reclassified as type 2, emphasizing the requirement for multimer analysis compared with a mere ratio of VWF functional parameters and VWF:Ag. This is further supported by the finding that even slightly aberrant multimers are highly predictive for the presence of VWF mutations.
Authors: Daniel J Hampshire; George J Burghel; Jenny Goudemand; Laura C S Bouvet; Jeroen C J Eikenboom; Reinhard Schneppenheim; Ulrich Budde; Ian R Peake; Anne C Goodeve Journal: Haematologica Date: 2010-09-17 Impact factor: 9.941
Authors: Ashley Cartwright; Simon J Webster; Annika de Jong; Richard J Dirven; Lisa D S Bloomer; Ahlam M Al-Buhairan; Ulrich Budde; Christer Halldén; David Habart; Jenny Goudemand; Ian R Peake; Jeroen C J Eikenboom; Anne C Goodeve; Daniel J Hampshire Journal: Blood Adv Date: 2020-07-14
Authors: Jonathan C Roberts; Patti A Morateck; Pamela A Christopherson; Ke Yan; Raymond G Hoffmann; Joan Cox Gill; Robert R Montgomery Journal: Blood Date: 2016-02-25 Impact factor: 22.113