Characteristics, complications, and sites of bleeding among infants and toddlers less than 2 years of age with VWD

Von Willebrand disease (VWD) and pregnancy: a comprehensive overview

Von Willebrand disease (VWD) is a hereditary bleeding disorder characterized by a quantitative or qualitative deficiency of von Willebrand factor (VWF). Pregnancy significantly impacts hemostasis, leading to a hypercoagulable state. However, women with VWD experience unique challenges due to the interplay between pregnancy-related hormonal changes and VWF deficiencies. This review delves into the intricate relationship between VWD and pregnancy. We explored the physiological changes that occur during pregnancy, including hormonal fluctuations, hemodilution, and alterations in platelet-VWF interactions. We discuss how these changes can exacerbate bleeding tendencies in women with VWD, particularly during childbirth and the postpartum period. This review highlights the increased risk of postpartum hemorrhage (PPH) in women with VWD and the potential for severe maternal morbidity and mortality. We examine the various types of VWD and their specific implications for pregnancy outcomes. Additionally, we discuss the challenges associated with diagnosing and managing VWD during pregnancy, as well as the importance of prenatal counseling and careful monitoring. The management of VWD during pregnancy involves a multidisciplinary approach, including the use of prophylactic treatments, such as desmopressin and tranexamic acid, as well as factor replacement therapy when necessary. Careful planning of delivery, including the choice of delivery mode and the timing of interventions, is essential to minimize bleeding complications. By understanding the complexities of VWD during pregnancy and implementing appropriate management strategies, healthcare providers can significantly improve the outcomes for women with VWD and their offspring.

Genotype-Phenotype Relationship among 785 Unrelated White Women with Inherited Congenital Factor VII Deficiency: A Three-Center Database Study

BACKGROUND

Congenital factor VII (FVII) deficiency, a rare bleeding disorder resulting from mutations in the F7 gene with autosomal recessive inheritance, exhibits clinical heterogeneity that lacks a strong correlation with FVII:C levels. The objective of this study was to discern genetic defects and assess their associations with the clinical phenotype in a substantial cohort comprising 785 white women exhibiting FVII:C levels below the age-dependent cut-off percentage.

PATIENTS AND METHODS

Individuals with verified inherited factor VII deficiency underwent i) genotyping using the Sanger method and multiplex ligation-dependent probe amplification (MLPA) to identify F7 mutations, including common polymorphic variants. Additionally, they were ii) categorized based on clinical bleeding scores (BS). Thrombophilic variants and blood groups were also determined in the study participants.

RESULTS

The probands in this study encompassed both asymptomatic individuals (referred for a laboratory investigation due to recurrent prolonged prothrombin time; n = 221) and patients who manifested mild, moderate, or severe bleeding episodes (n = 564). The spectrum of bleeding symptoms included epistaxis, gum bleeding, gastrointestinal bleeding, hematuria, postoperative bleeding, and gynecologic hemorrhage. The median ISTH bleeding score (BS) recorded within a two-year period prior to the work-up was 2 (0-17). Notably, this score was significantly higher in symptomatic women compared to their asymptomatic counterparts (3 versus 0; p < 0.001). The corresponding PBAC score before hormonal treatment stood at 225 (5-1200), exhibiting a positive correlation with the ISTH BS (rho = 0.38; p = 0.001). Blood group O was more prevalent in symptomatic women compared to asymptomatic individuals (58 versus 42%; p = 0.01). Among the 329 women (42%), known and novel mutations in the F7 gene, encompassing coding regions, exon/intron boundaries, and the promoter region, were identified, while common polymorphisms were detected in 647 subjects (95%). Logistic regression analysis, adjusted for clinical and laboratory data (including blood group, FVII activity, the presence of F7 gene mutations and/or polymorphisms, thrombophilia status, and additional factor deficiencies) revealed that older age at referral (increase per year) (odds/95% CI: 1.02/1.007-1.03), the presence of blood group O (odds/95% CI: 1.9/1.2-3.3), and the coexistence of further bleeding defects (odds/95% CI: 1.8/1.03-3.1) partially account for the differences in the clinical bleeding phenotype associated with FVII deficiency.

CONCLUSION

The clinical phenotype in individuals with FVII deficiency is impacted by factors such as age, blood group, and the concurrent presence of other bleeding defects.

Patients with von Willebrand disease in China: Results of an online survey

INTRODUCTION

Little is known about the clinical characteristics of von Willebrand disease (VWD) patients in China, the impact of Covid-19 on them and their genetic mutation.

AIM

To describe the clinical characteristics of a group of VWD patients in China, the impact of Covid-19 on them and their genetic mutation.

METHODS

An online survey using a self-designed questionnaire was conducted among patients within a WeChat group of VWD patients in China. Data were analysed using t-test, the Chi-square test, Fisher's exact test and rank sum test.

RESULTS

Data from a total of 96 patients were collected. Several important findings are yielded. Above all, type 3 patients accounted for over half of the surveyed patients. Secondly, a surprising rate (>40%) of patients had experience of being misdiagnosed. Thirdly, treatment regimens were dominated by cryoprecipitate, blood-derived FVIII and plasma, and only a small percentage of patients received prophylaxis. Fourthly, we identified 17 new von Willebrand factor (VWF) mutant genes which merit further investigation. Additionally, Covid-19 was found to pose some challenges for the patients.

CONCLUSION

In China, the high rates of type 3 patients and misdiagnosis suggest that most of the VWD patients may never be diagnosed in China. When it comes to diagnosis and treatment, there is a large gap between developing countries like China and developed countries.

Clinical and laboratory presentation of von Willebrand disease: Experience from a single center in KSA

Objectives

This study was aimed at assessing the clinical presentations and laboratory findings among patients diagnosed with vWD at a Saudi tertiary care unit.

Methods

This retrospective study included 189 patients with vWD who were followed up in our unit over 4 years. Clinical and laboratory data were collected and analyzed in SPSS.

Results

The median age of the study cohort was 30 years (range 11 months-56 years). The cohort had a female preponderance, with 32.30% males and 66.70% females. Bleeding from different sites was observed, mostly from the joints and muscles (23.90%), followed by the mucus membranes (14.60%), genitourinary areas (7.70%), ecchymoses (2.80%), and gastrointestinal areas (2.80%). A total of 48% of participants presented with more than one type of bleeding. A total of 105 (58.01%) participants had type 1; 29 (16.02%) had type 2; and 47 (25.96%) had type 3 vWD. Blood tests indicated the following mean value: hemoglobin, 116 ± 25.60 gm/L; ferritin, 75.80 ± 166.80 μg/L (median 28.5); vWAg, 0.40 ± 0.27IU/ml; and vWD:RCo, 0.32 ± 0.20IU/dL. The partial thromboplastin time was prolonged in 49.20% and normal in 50.80% of participants. Platelet function analysis values were prolonged in 92.90% and normal in 7.10% of participants. Comparative analysis of the O-type and non-O blood type showed that blood type O was significantly correlated with factor VIII (p-value = 0.013), vWF:RCo (p-value = 0.004), and vWF:Ag (p-value = 0.019).

Conclusion

Joint and muscle bleeds were the most common clinical presentations in our cohort. Although type 1 vWD was most prevalent in our cohort, we observed a comparatively higher prevalence of type 3, possibly because of ethnic differences or referral bias. We found a significant difference between O and non-O blood type regarding FVIII and vWF:Ag, and observed a more pronounced difference for vWD activity measuresd by vWF:RCo with blood type O being the systematic factor.