Type 1 von Willebrand disease - a clinical retrospective study of the diagnosis, the influence of the ABO blood group and the role of the bleeding history

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.

Low von Willebrand Factor in Children and Adolescents: A Review

IMPORTANCE

Recent studies have documented increased bleeding symptoms and related complications in patients with low von Willebrand factor (VWF), highlighting the clinical significance of this entity. Because children and adolescents with VWF deficiencies often present to primary care physicians with bleeding symptoms, physicians need to be aware of this condition for early detection.

OBSERVATIONS

Studies have found that children and adolescents with low VWF (VWF levels of 30-50 IU/dL) can present with clinically significant bleeding, including mucosal, menstrual, postsurgical, and posttraumatic bleeding, leading to complications such as anemia, iron deficiency, transfusion, hospitalization, and poor quality of life. Detecting and promptly managing low VWF in children and adolescents with bleeding are essential because failure to do so can lead to significant morbidity in adulthood, especially among female patients, including continued heavy menstrual bleeding; postpartum hemorrhage; related gynecologic complications, such as hemorrhagic ovarian cysts; and surgical interventions for heavy menstrual bleeding, including hysterectomy. This narrative review summarizes the observations of several studies that have shed light on the pathophysiologic mechanisms of low VWF and bleeding in these patients and the available diagnostic modalities and treatment options.

CONCLUSIONS AND RELEVANCE

Studies in children and adolescents have provided important insights into the clinical phenotype, complications, pathophysiologic mechanisms, evaluation, and management of low VWF, now recognized as an important clinicopathologic entity, as presented in this review. As gatekeepers, primary care physicians play an important role in guiding patients with this recently recognized clinicopathologic entity toward appropriate specialty care and providing continued comanagement to prevent future complications as the patients enter adulthood.

Management of large volume liposuction in lipedema patients with von Willebrand disease: A systematic review and treatment algorithm

BACKGROUND

When performing large volume liposuction, perioperative management of lipedema patients with coagulation disorders remains challenging due to a lack of clinical experience. With a prevalence of 1% of von Willebrand disease (VWD) in the general population, basic knowledge on diagnostic and adapted surgical strategies are essential for patients' safety.

OBJECTIVE

Based on a selective literature review, the purpose of this article is to present a standardized algorithm for diagnosis and perioperative treatment of VWD patients undergoing large volume liposuction.

METHODS

The databases MEDLINE (via PubMed) and Web of Science were selectively searched with the term "(((liposuction) OR (surgery)) OR (lipectomy)) AND (((VWD) OR (hemostaseology)) OR (von Willebrand disease))". Included were articles published in English or German until November 2020.

RESULTS

The evidence for large volume liposuctions in patients with VWD is limited. Experience is largely based on operations with similar bleeding risks. A safe performance requires an adjustment of the surgical technique and a customized perioperative drug substitution plan. According to the current literature, perioperative thromboembolic events appear to be rare with adequate drug treatment.

CONCLUSION

The implementation of the developed diagnostic and treatment algorithm may help further reducing bleeding complications and improve the safety for treated patients.

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

Data on infants and toddlers (ITs) with von Willebrand disease (VWD) are lacking. We used data collected in the US Hemophilia Treatment Center Network (USHTCN) to describe birth characteristics, bleeding episodes, and complications experienced by 105 patients with VWD who were <2 years of age. In 68% of the patients, the reason for diagnostic testing was a family history of a bleeding disorder. The mean age at diagnosis was 7 months, with little variation by sex. Patients with type 2 VWD were diagnosed earlier than those with types 1 or 3 (P = .04), and those with a family history were diagnosed ∼4 months earlier than those with none (P < .001). Among the patients who experienced a bleeding event (70%), oral mucosa was the most common site of the initial bleeding episode (32%), followed by circumcision-related (12%) and intracranial/extracranial bleeding (10%). Forty-one percent of the initial bleeding events occurred before 6 months of age, and 68% of them occurred before the age of 1 year. Approximately 5% of the cohort experienced an intracranial hemorrhage; however, none was associated with delivery at birth. Bleeding patterns and rates were similar by sex (P = .40) and VWD type (P = .10). Forty-seven percent were treated with plasma-derived von Willebrand factor VIII concentrates. The results of this study indicate that a high percentage of ITs diagnosed with VWD and receiving care within the multidisciplinary structure of the USHTCN have a family history of VWD. In addition, bleeding events such as circumcision-related, oropharyngeal, and intracranial or extracranial episodes are common and are leading indicators for treatment.

One-Stage Factor VIII Assays

Coagulation factor assays using one-stage methodology are widely used to measure factor levels for the purpose of detecting a deficiency, or to monitor replacement therapy. In this chapter, we focus on a method to measure Factor VIII coagulant activity (FVIII:C) by the one-stage assay (FVIII:C-1), with extra information provided to also allow this method to apply to Factor IX (FIX), Factor XI (FXI), and Factor XII (FXII). From the perspective of laboratory testing, these factors are components of the "intrinsic" coagulation pathway and are all measured in test systems based on the correction of the Activated Partial Thromboplastin Time (APTT). Factor activity is assessed by measuring the ability of an unknown sample to correct the prolonged APTT of factor-deficient plasma (deficient in the factor of interest), relative to the effect of a known calibrator. These assays are used for the diagnosis of the many causes of reduced factor levels, including those causing a prolonged APTT. It is important for laboratory staff to understand the impact of method variations, limitations, and result interpretation and these aspects are also discussed.

The influence of the ABO blood type on the distribution of von Willebrand factor in healthy children with no bleeding symptoms

The purpose of this study was to determine the effect of ABO blood groups on von Willebrand factor-ristocetin cofactor activity (vWF-RCo) and on vWF-antigen (vWF-Ag) in children who have no personal or familial history of bleeding.

MATERIAL AND METHODS

A survey and testing were performed on 200 children with no personal or familial history of bleeding. In all, 100 of them belonged to blood group O, and the remaining 100 belonged to other blood groups. The blood samples were stored at -80°C for a maximum period of 2 weeks to detect vWF-RCo and vWF-Ag levels.

RESULTS

The mean vWF-Ag (± 2 standard deviation [SD]) level in children with blood group O was 86% (± 20%); and for those with non-O blood group, it was 98.8% (± 25%). There was a significant difference between the 2 groups (P < .001). The mean vWF-RCo (± 2 SD) level in children with blood group O was 89% (± 23%); and for those with non-O blood group, it was 103% (± 17%). There was a significant difference between those in the 2 groups (P < .001). The lowest value of vWF-Ag and vWF-RCo levels in children with blood group O was found to be 50%. In conclusion, we showed that the selection of normal ranges based on the ABO group might influence the clinical diagnosis of vWD and that while the approach of using ABO group ranges for a vWF-Ag level lower than 50 IU/dL is scientifically sound, it might not be useful to assist a clinician in identifying people at increased risk of bleeding.

The diagnosis and treatment of von Willebrand disease in children

von Willebrand disease is the most common bleeding disorder seen in children and it affects approximately 1% of the population. Because the bleeding symptoms in von Willebrand disease are generally mild, the diagnosis is often delayed. Prompt diagnosis and management can help to avoid potentially life-threatening bleeding events and unnecessary exposure to blood products. In this review, the various types of von Willebrand disease are outlined, the difficulties in diagnosis are discussed and the therapeutic approach to this common disorder is described.

Application of UKHCDO 2004 guidelines in type 1 von Willebrand Disease--a single centre paediatric experience of the implications of altered or removed diagnosis

Diagnosis of type I von Willebrand Disease (VWD) can be challenging. In 2004, the United Kingdom Haemophilia Centre Doctors' Organisation (UKHCDO) proposed more stringent diagnostic criteria to replace the 1995 guidelines. To determine the true number of cases of type 1 VWD in a single paediatric centre, the 2004 UKHCDO Guideline for the diagnosis of VWD was used to evaluate 114 patients on our type 1 VWD register. Clinical and laboratory data were collected and analysed to see whether they met the criteria for type 1 VWD. Only 8% remained on the type 1 VWD register. 18% have been classified as 'possible type 1 VWD'. Twenty five surgical procedures have since been performed on patients from the group in which the diagnosis was removed without any haemostatic support or bleeding complications. Reaction to the removal of the VWD diagnosis or delivery of an alternative diagnosis was positive for most patients and families. This study is the first to assess the impact of the 2004 UKHCDO Guidelines on the diagnosis of VWD. It provides evidence that the prevalence of type 1 VWD may actually be closer to that of haemophilia instead of the previously reported 1-3% of the general population. We propose that all centres should review their patients with a diagnosis of VWD to revalidate this disease that claims to be our most common inherited bleeding disorder.

Comparison of coagulation factors and blood loss between O and non-O blood types following hydroxyethyl starch infusion

Background

Individuals with type O blood are more likely to have reduced factor VIII and von Willebrand factor levels compared to their non-O counterparts. Hydroxyethyl starch (HES), which is widely used for blood volume replacement, can induce coagulopathy. Therefore, we tested whether blood type O patients show more coagulopathy and blood loss than non-O patients after infusion of 6% HES.

Methods

Thirty-four non-O and 20 type O patients scheduled for posterior lumbar interbody fusion (PLIF) involving 3 vertebrae or less from June 2007 to August 2008 were enrolled. Fifteen ml/kg of 6% HES was administered during the operation. Coagulation profiles was checked at pre-infusion (T0), 5 min after the end of infusion (T1), 3 hr after the end of infusion (T2), and 24 hr after the end of infusion (T3). Bleeding was measured during and after surgery for 24 hours.

Results

Baseline factor VIII concentration was lower and aPTT was longer in type O patients compared to those of non-O patients. 6% HES infusion decreased most of the coagulation factors at T1 in both groups, which were recovered in a time dependent manner. Factor VIII and aPTT of blood type O patients fell off the normal range at T1. However, other coagulation factors, thromboelastography variables, and blood loss were not different between the groups.

Conclusions

Despite inborn low factor VIII which further decreased shortly after HES infusion, blood type O patients did not show more blood loss than non-O blood type after 15 ml/kg of HES infusion in PLIF surgery.

Type 1 von Willebrand disease: application of emerging data to clinical practice

There has been much recent data published on type 1 von Willebrand disease (VWD) predominantly from three multi-centre cohort studies. These data have influenced a revision of the classification of type 1 VWD and have important implications for the management of this disorder. Patients with low von Willebrand factor (VWF) levels tend to have VWF mutations and VWD is transmitted predictably within families. In patients with VWF levels close to the lower end of the normal range, candidate mutations are found less often, ABO blood group is a more important factor and the disease has variable heritability within families. The importance of bleeding symptoms, in addition to VWF levels, in the diagnosis of type 1 VWD has been highlighted.

Relationship between ABO blood group and von Willebrand factor levels: from biology to clinical implications

Although a number of studies have demonstrated the influence of ABO blood group on plasma levels of von Willebrand factor (VWF), the nature of this association and its clinical importance is still largely unknown.

In this review, the most recent advances in our understanding of the mechanisms by which ABO blood group determines plasma VWF levels and their clinical impact will be discussed.

Effect of von Willebrand factor Y/C1584 on in vivo protein level and function and interaction with ABO blood group

Blood group O and the cysteine allele of the Y/C1584 change in von Willebrand factor (VWF) are enriched in type 1 VWD, but neither causes disease. We investigated the effect of C1584, alone and in combination with the ABO blood group, on the level and properties of plasma VWF. A cohort of 5052 blood donors was recruited: 50 donors were heterozygous for Y/C1584 and 5002 were homozygous for Y/Y1584. Mean VWF antigen (VWF:Ag) for heterozygotes (82 +/- 35 IUdL(-1)) was significantly lower than for homozygotes (111 +/- 37 IUdL(-1)) (P < .001). Foreach ABO blood group, VWF:Ag was decreased among Y/C1584 heterozygotes compared with Y/Y1584 homozygotes; a larger decrease was observed for group O. Among donors with VWF:Ag levels of 50 IUdL(-1) or lower, Y/C1584 heterozygosity was markedly enriched (18%) compared with the entire cohort (1.5%). Blood group O was enriched to a lesser extent (2.4%), but Y/C1584 in conjunction with group O was strikingly enriched (34.8%). VWF collagen binding activity (VWF:CB) and ristocetin cofactor activity (VWF:RCo) were significantly lower for Y/C1584 heterozygotes than for Y/Y1584 homozygotes, and a qualitative difference in Y/C1584 plasma VWF multimer profile was observed compared with that for Y/Y1584 VWF. The data support a multifactorial basis for low VWF levels in some individuals.

Risk of excessive bleeding associated with marginally low von Willebrand factor and mild platelet dysfunction

BACKGROUND

Bleeding symptoms are so commonly reported that it is not known whether they associate causally or coincidentally with mild but measurable primary hemostatic defects. OBJECTIVES/PATIENTS/METHODS: In order to evaluate if the mild primary hemostatic defects are truly causative of increased bleeding symptoms, we surveyed a population of healthy teenagers for bleeding symptoms. Using a case-control approach, we then estimated the risk of excessive bleeding associated with low von Willebrand factor (defined as VWF below the 5th percentile of a normal reference population), and with mild platelet dysfunction [PD, defined as concurrent reduced platelet aggregation responses to two agonists (adenosine diphosphate and epinephrine)].

RESULTS

Excessive bleeding was present in 63 out of 809 teenagers (7.8%). Among the 49 cases who were tested for VWF, low values by three measures were more commonly present than in 166 controls, specifically, ristocetin cofactor (RCo) activity [20.4% vs. 5.4%, odds ratio (OR) 4.5], collagen binding (14.3% vs. 4.2%, OR 3.8), and antigen level (20.4% vs. 6.0%, OR 4.0). The low RCo values ranged from 35 to 45 U dL(-1) except for a single case with 26 U dL(-1). Of the 47 teenagers with excessive bleeding who underwent platelet aggregation studies, reduced responses were more common than in controls (12.8% vs. 4.4%, OR 3.2). Twenty-nine per cent of cases with excessive bleeding had either low RCo or PD.

CONCLUSION

Almost one in three teenagers who report excessive bleeding is likely to have a measurable hemostatic disturbance manifested either by marginally low VWF (by three measures) or by mild PD.

The Hemostatic Profiles of Patients with Type O and Non-O Blood After Acute Normovolemic Hemodilution with 6% Hydroxyethyl Starch (130/0.4)

BACKGROUND

Individuals with Type O blood have been reported to have a tendency toward reduced Factor VIII and von Willebrand Factor (vWF) levels. If this is true, patients with Type O blood might be vulnerable to coagulopathy during acute normovolemic hemodilution using hydroxyethyl starch (HES), both from hemodilution as well as HES-related coagulopathy.

METHODS

Thirty non-O and 15 type O ASA 1 or 2 patients scheduled for spinal surgery involving more than two spinal levels were enrolled for the study. After anesthesia induction, 30% of the estimated blood volume was removed, and the volume was simultaneously replaced with 6% HES (130/0.4). Coagulation profiles were measured before (T0) and 30 min after acute normovolemic hemodilution (T30).

RESULTS

Factor VIII activity, vWF antigen levels (vWF:ag), and vWF ristocetin cofactor activity (vWF:RCof) were lower in the O group than in the non-O group before and after acute normovolemic hemodilution, and decreased below the normal range in the O group after acute normovolemic hemodilution. The decrease was beyond that expected from hemodilution alone. Maximum amplitude and coagulation index of the thromboelastogram decreased below the normal range in the O group after acute normovolemic hemodilution. The decrease in vWF:ag was related to the degree of blood loss, and was greater in patients in the O group.

CONCLUSIONS

Patients with Type O blood may have increased coagulation compromise, and greater dilution of Factor VIII activity, vWF:ag, and vWF:RCof after acute normovolemic hemodilution with HES.

The obstetric and gynaecological management of women with inherited bleeding disorders - review with guidelines produced by a taskforce of UK Haemophilia Centre Doctors' Organization

The gynaecological and obstetric management of women with inherited coagulation disorders requires close collaboration between obstetrician/gynaecologists and haematologists. Ideally these women should be managed in a joint disciplinary clinic where expertise and facilities are available to provide comprehensive assessment of the bleeding disorder and a combined plan of management. The haematologist should arrange and interpret laboratory tests and make provision for appropriate replacement therapy. These guidelines have been provided for healthcare professionals for information and guidance and it is also intended that they are readily available for women with bleeding disorders.

Activated protein C resistance: The influence of ABO-blood group, gender and age

We have evaluated the potential influence of ABO-blood group, gender and age, on laboratory procedures used for detection of Activated Protein C Resistance (APCR), using over 300 normal donor samples and two distinct laboratory test procedures, one based on an Activated Partial Thromboplastin Time (APTT) and the other on a Russell Viper Venom Time (RVVT). We observed a statistically significant influence of ABO-blood group on APTT test times, both in the presence and absence of Activated Protein C (APC), which was no longer evident when using assay ratios. This ABO effect was not observed using the RVVT-based assay procedure. We also observed a gender effect on the APTT-based procedure, such that females (compared to males) provided shorter APTT test times (both with and without APC). This effect was still evident when using APTT assay ratios, but was again not observed using the RVVT-based procedure. We also observed an age related increase in APTT ratios. Interestingly, some previous studies have reported some specific gender and age related effects on APTT-based testing, but reports using RVVT-based testing are lacking, as are ABO related studies. Such findings should be considered as potential variables when associating specific laboratory based findings of APCR to clinical thrombophilia conditions.

Genetic analysis of 31 Swedish type 1 von Willebrand disease families reveals incomplete linkage to the von Willebrand factor gene and a high frequency of a certain disease haplotype

BACKGROUND

The most common type of von Willebrand disease (VWD), type 1, has in only a few cases been explained by an identified causative mutation in the von Willebrand factor (VWF) gene. The ABO blood group and other modifier loci outside the VWF gene may contribute to the development of type 1 VWD.

OBJECTIVES AND METHODS

Our aim was to determine whether there was genetic linkage to the VWF gene in 31 Swedish type 1 VWD families. Stringent diagnostic criteria in accordance with ISTH guidelines were used. Genetic linkage was investigated by using two highly informative dinucleotide microsatellite markers, which we have recently identified, located in introns six and 15 of the VWF gene. We also investigated the existence of common disease haplotypes and the relation between type 1 VWD and ABO blood group.

RESULTS

We found genetic linkage to the VWF gene in 27 (87%) of the families. However, in four (13%) of the families, there was clearly no genetic linkage. We found the 4751A>G (Tyr1584Cys) sequence variation in exon 28, which is a common mutation in the Canadian VWD population (14.3%), in only one of the 31 families (3.2%). A possible common mutation was identified in six of the 27 (22%) families with genetic linkage. Blood group O was over-represented among type 1 VWD patients.

CONCLUSION

We conclude that there is linkage between the VWF gene and hereditary type 1 VWD in a majority of families.

Hemostasis and menstruation: appropriate investigation for underlying disorders of hemostasis in women with excessive menstrual bleeding

The evaluation of excessive menstrual bleeding carries a relatively high yield of discovering an underlying disorder of hemostasis in females. This review highlights important components in a structured history and outlines primary and secondary hematologic testing that should be considered in the evaluation of excessive menstrual bleeding.

Laboratory Identification of Familial Thrombophilia: Do the Pitfalls Exceed the Benefits? A Reassessment of ABO-Blood Group, Gender,Age, and other Laboratory Parameters on the Potential Influence on a Diagnosis of Protein C, Protein S, and Antithromb

Laboratory testing for familial thrombophilia defines a large proportion of the modern hemostasis laboratory workload. As part of an ongoing assessment of our activities, we have re-evaluated our laboratory procedures for antithrombin (AT), Protein C (PC), and Protein S (PS), inclusive of normal reference ranges (NRR), the potential influence of ABO-blood group, gender and age, as well as other laboratory parameters, in order to help assess the effectiveness of testing as an aid to clinical diagnosis. We did not observe a significant influence of ABO-blood group on AT, PC, or PS. However, there were gender-related effects for PS (lower in females) and AT (higher in females), but not for PC. There were also age-related effects for AT, PC, and PS. Data is compared with literature findings. We also audited the positive detection rate for PC and/or PS deficiencies. In a 6-month period of testing, we identified that 18.9% of tested samples yielded low or near-low PC and/or PS levels. However, 33.3% of such samples were potentially derived from patients on oral anticoagulant therapy (ie, potential false positives). Additional pre-analytical variables, intra-assay, inter-assay, and inter-laboratory variability also contribute to the possibility of false positive detection. Thus, whilst NRR can be developed for test parameters, the likelihood of a false-positive test result can still be shown to exceed the likelihood of a true positive result, and this casts a shadow over the clinical value of such testing in some cases. In conclusion, laboratory testing for these markers of familial thrombophilia may or may not assist in the clinical diagnosis of this condition and clinical specialists should be made aware of laboratory test limitations, and consult with laboratories prior to making a definitive diagnosis of AT, PC, or PS deficiency.

von Willebrand disease and other disorders of hemostasis in the patient with menorrhagia

Separately, von Willebrand disease and menorrhagia are two relatively common conditions; in combination they occur at a prevalence of approximately 11-16%. Such patients exhibit a reduced quality of life and can incur a relatively high rate of gynecologic interventions; for example dilatation and curettage, endometrial ablation and hysterectomy. Initial evaluation involves a focused history for the following bleeding symptoms: menorrhagia since menarche, easy bruising of greater than 5 cm 1-2 times/month, frequent gum bleeding when flossing or brushing teeth or epistaxis 1-2 times/month. In addition, for those who have already undergone invasive interventions with the subsequent risk for hemorrhage, inquiry should be made regarding excessive bleeding with childbirth, dental tooth extraction and/or surgery. Step-wise testing includes a complete blood cell count and an assessment of the prothrombin time, activated partial thromboplastin time, iron profile, serum creatinine and thyroid-stimulating hormone level, followed by Factor VIII level, von Willebrand factor antigen and ristocetin cofactor, followed by consideration of platelet aggregation studies. Additional hemostatic studies may include obtaining a Factor XI level and euglobulin clot lysis time. Intuitively, failure to diagnose an underlying hemostatic disorder may lead to continued menorrhagia and diminished quality of life, as well as unnecessary surgical interventions that may in turn be fraught with an increased risk of bleeding. The management of von Willebrand disease-related menorrhagia involves consideration of the patient's age, childbearing status and preference. In the adolescent, surgical intervention is not an option, whereas an older patient beyond her childbearing years may choose a hysterectomy as a definitive treatment in lieu of continued medical therapy with intranasal/subcutaneous 1-deamino-8-D-arginine vasopressin (DDAVP), oral antifibrinolytic agents or oral contraceptive. The sexually active patient may initially choose a trial of oral contraceptive or the levonorgestrel intrauterine device, Mirena((R)). Pending ongoing comparative trials in von Willebrand disease-related menorrhagia of intranasal DDAVP, tranexamic acid and the levonorgestrel intrauterine device, specific recommendations cannot be made at present regarding the superiority of one intervention compared with another. It should also be noted that the dose and schedule of intranasal DDAVP, tranexamic acid and epsilon-amino caproic acid have not been well established and warrant further study in combination and at various doses and schedules.

Diagnosis and Management of Mild Bleeding Disorders

Mild bleeding disorders are a common reason for a referral to a hematologist and these conditions can be challenging to evaluate. Recent research has highlighted that some bleeding symptoms are quite common in the general population and that there is clinical variability in symptom expression among individuals with defined bleeding problems. Moreover, bleeding risks for many bleeding disorders are unknown. This article reviews symptoms and problems that can be considered suspicious of a mild form of bleeding disorder and the diagnostic investigations useful to evaluate these problems. A stepwise approach is presented for the diagnostic evaluation, to allow detection of common and rare coagulation and fibrinolytic defects, and adequate assessments of potential von Willebrand factor and platelet problems. Some common problems in the diagnosis and management of mild bleeding problems are reviewed, including the common failure to establish a diagnosis with testing. An approach is proposed for translation of knowledge to patients who are challenged by mild bleeding problems.

Results of a Survey of Hospital Coagulation Laboratories in the United States, 2001

Context.—Coagulation and bleeding problems are associated with substantial morbidity and mortality, and inappropriate testing practices may lead to bleeding or thrombotic complications.

Objective.—To evaluate practices reported by hospital coagulation laboratories in the United States and to determine if the number of beds in a hospital was associated with different practices.

Design.—From a sampling frame of institutions listed in the 1999 directory of the American Hospital Association, stratified into hospitals with 200 or more beds (“large hospitals”) and those with fewer than 200 beds (“small hospitals”), we randomly selected 425 large hospitals (sampling rate, 25.6%) and 375 small hospitals (sampling rate, 8.8%) and sent a survey to them between June and October 2001. Of these, 321 large hospitals (75.5%) and 311 small hospitals (82.9%) responded.

Results.—An estimated 97.1% of respondents reported performing some coagulation laboratory tests. Of these, 71.6% reported using 3.2% sodium citrate as the specimen anticoagulant to determine prothrombin time (81.3% of large vs 67.7% of small hospitals, P &lt; .001). Of the same respondents, 45.3% reported selecting thromboplastins insensitive to heparin in the therapeutic range when measuring prothrombin time (59.4% of large vs 39.8% of small hospitals, P &lt; .001), and 58.8% reported having a therapeutic range for heparin (72.9% of large vs 53.2% of small hospitals, P &lt; .001). An estimated 96.3% of respondents assayed specimens for activated partial thromboplastin time within 4 hours after phlebotomy, and 89.4% of respondents centrifuged specimens within 1 hour of collection. An estimated 12.1% reported monitoring low-molecular-weight heparin therapy, and to do so, 79% used an assay for activated partial thromboplastin time (58% of large vs 96% of small hospitals, P = .001), whereas 38% used an antifactor Xa assay (65% of large vs 18% of small hospitals, P = .001).

Conclusions.—Substantial variability in certain laboratory practices was evident. Where significant differences existed between the hospital groups, usually large hospitals adhered to accepted practice guidelines to a greater extent. Some reported practices are not consistent with current recommendations, showing a need to understand the reasons for noncompliance so that better adherence to accepted standards of laboratory practice can be promoted.

Acquired disorders of platelet function

A qualitative abnormality of platelet function should be considered in patients with mucocutaneous bleeding in the absence of thrombocytopenia or von Willebrand disease. Antiplatelet drugs are the most common cause of acquired platelet disorders leading to bleeding. Uremia, hepatic cirrhosis, myeloma and related disorders, polycythemia vera, essential thrombocythemia, and cardiopulmonary bypass have long been recognized as clinical situations in which platelet dysfunction may contribute to bleeding. When an acquired platelet disorder is suspected, it is useful to examine platelet function by measuring the bleeding time, examining platelet-dependent closure time in a platelet function analyzer and performing platelet aggregometry. When a specific acquired platelet disorder is diagnosed, many treatment options are available including controlling the underlying disease, giving platelet transfusions and administering a hemostatic drug.

Diagnosis and treatment of von Willebrand disease

Von Willebrand disease (VWD) is the most common bleeding disorder; it is believed to occur in approximately 1% to 2% of the population. Mucocutaneous and surgical hemorrhage in affected individuals is caused by quantitative and qualitative defects in von Willebrand factor (VWF), a large, multimeric protein that supports platelet adhesion and aggregation in the initiation of hemostasis at the time of vascular injury and functions as a carrier protein for factor VIII in the circulation. Advances in cellular and molecular biology have led to improved understanding of the pathophysiology of the disorder and development of a classification scheme that is based on quantitative and qualitative defects. Effective treatment is dependent on an accurate diagnosis using specific assays of VWF that define the various defects.

The diagnosis of von Willebrand disease: a guideline from the UK Haemophilia Centre Doctors' Organization

von Willebrand disease (VWD) is the commonest inherited bleeding disorder. However, despite an increasing understanding of the pathophysiology of VWD, the diagnosis of VWD is frequently difficult because of uncertainty regarding the relationship between laboratory assays and function in vivo. The objective of this guideline is to provide contemporary advice on a rational approach to the diagnosis of VWD. This is the second edition of this UK Haemophilia Centre Doctors' Organisation (UKHCDO) guideline and supersedes the previous edition which was published in 1997.

von Willebrand disease in women with menorrhagia: a systematic review

OBJECTIVE

To determine the prevalence of von Willebrand disease in women presenting with menorrhagia.

DESIGN

Systematic review of studies evaluating the prevalence of von Willebrand disease in women with menorrhagia.

SETTING

Hospital outpatient clinics (mainly gynaecological) and population surveys.

POPULATION

Women presenting with menorrhagia.

METHODS

Relevant studies were extracted from MEDLINE search, bibliographies of identified articles and published proceedings of meetings and conferences.

MAIN OUTCOME MEASURES

Number of women with von Willebrand disease.

RESULTS

Eleven studies were included, totalling 988 women with menorrhagia. One hundred and thirty-one women were diagnosed to have von Willebrand disease with prevalences in individual studies ranging from 5% to 24%. The overall prevalence was 13% (95% CI 11-15.6%). The prevalence was higher in the European studies-18% (95% CI 15-23%) compared with that in North American studies-10% (95% CI 7.5-13%). This difference (P= 0.007) is likely to be the result of differences in the studies, which include method of recruitment of study population, method of assessing menstrual blood loss ethnic composition of study population, criteria for diagnosis and use of race- and ABO blood group-specific values for von Willebrand factor.

CONCLUSIONS

The prevalence of von Willebrand disease is increased in women with menorrhagia and is the underlying cause in a small but significant group of women with menorrhagia across the world. Testing for this disorder should be considered when investigating women with menorrhagia, especially those of Caucasian origin, those with no obvious pelvic pathology or with additional bleeding symptoms.

Morbidity of lupus anticoagulants in children: a single institution experience

INTRODUCTION

The lupus anticoagulant (LA) and the anticardiolipin antibodies (ACA) are the antiphospholipid antibodies more relevant clinically. Their clinical manifestations are diverse with most patients being asymptomatic while others present venous or arterial thrombosis, and more rarely, bleeding. Our objectives were to evaluate clinical presentation of LA in children and to correlate it to LA behavior.

PATIENTS AND METHODS

A retrospective cohort of patients (under 18 years old) who had a positive determination of LA followed by at least another determination of LA at a variable period was evaluated. Personal and family history, including infectious diseases temporally related to the event, were recorded. The screening of other coagulation disorders was performed according to symptoms, family history or laboratory results.

RESULTS

Thirty-six patients were evaluated, median age was 10.8 years old, and 52.8% were female. Asymptomatic patients were 19.4% (7/36) of study population. Bleeding and thrombosis were found in 52.8% and 27.8%, respectively. Median LA determinations per patient were 3. von Willebrand disease was diagnosed in 66.7% of patients consulting for bleeding. A concomitant hemostatic defect was found in 8/10 patients with thrombosis (p = 0.003). LA behavior was not uniform and not correlated to symptoms.

CONCLUSIONS

Most LA found in children is incidental and asymptomatic. In children with bleeding, LA might be a fortuitous finding associated with VWD. The persistence of LA does not imply a higher risk of thrombosis.

Factor VIII and von Willebrand factor changes during normal pregnancy and puerperium

Gestation is a challenge to haemostasis and it is associated with significant haemostatic changes. Several studies have evaluated von Willebrand factor in normal pregnancy, but none considered the personal history of bleeding. We studied a group of healthy non-bleeding women (184 pregnant, 64 puerperium, 37 non-pregnant) to evaluate normal ranges and their relationship to blood group and parity. The von Willebrand factor increased markedly from non-pregnant values up to the end of early puerperium (P < 0.0001), while factor VIII only showed a slight increase. Factor VIII and von Willebrand factor activity remained within the normal range for non-pregnant women. The return to non-pregnant factor levels occurred in late puerperium, later than previously reported. Only factor VIII was significantly lower in the O blood group (P = 0.035). As regards parity, there were no differences in factor VIII, von Willebrand factor antigen and von Willebrand factor ristocetin cofactor between primigravidae and multigravidae for any period studied (P = 0.888, 0.999, and 0.237, respectively). Our results provide reference ranges that may help to design a study in von Willebrand factor disease in pregnancy.

Menorrhagia from a haematologist's point of view. Part I: initial evaluation

The evaluation of menorrhagia should no longer be solely the task of the gynaecologist. In women with ovulatory bleeding (regular cycles), the prevalence of von Willebrand disease (vWD) in about 15% of these, as well as disorders of platelet function and fibrinolysis causing menorrhagia, warrants an active role by the haematologist. Initial intake should include documentation of menorrhagia by the pictorial chart assessment of menstrual flow. Baseline characteristics of menstrual flow should also be documented, including the frequency of changing the sanitary pad on the heaviest day, use of more than one sanitary pad at a time, number of days lost from school/work and the impact of menses on various quality-of-life parameters. Menorrhagia since menarche, a past history of surgical- and/or dental-related bleeding and a past history of postpartum haemorrhage are items of the bleeding symptom audit that appear in part to predict vWD in women with menorrhagia. Epistaxis and easy bruising do not appear to be clearly discriminatory symptoms. Initial testing should include the complete blood cell count, prothrombin time, activated partial thromboplastin time, iron profile, serum creatinine, thyroid stimulating hormone level, factor VIII level, vWF antigen, ristocetin cofactor and platelet aggregation studies. Additional haemostatic studies may also include a factor XI level and euglobulin clot lysis time. This extensive medical evaluation should assure both the patient and the gynaecologist that the possibility of an underlying haemostatic disorder has been thoroughly investigated, to avoid the patient undergoing further costly procedures and surgical interventions if an underlying haemostatic disorder remains unrecognized.

Clinical and laboratory features of 178 children with recurrent epistaxis

PURPOSE

To determine the clinical and laboratory features of 178 children referred for the evaluation of recurrent epistaxis to an outpatient hematology clinic in a university medical center.

PATIENTS AND METHODS

Medical records of 3681 outpatient pediatric hematology referrals were retrospectively review, and 178 children with recurrent epistaxis from 1985 to 1999 were identified. Historic (other bleeding symptoms: gingival bleeding, easy bruising, menorrhagia, and gross blood in the urine or stool: duration and severity of the epistaxis episodes; and family history of bleeding) and laboratory (complete blood count and coagulation tests) data were analyzed.

RESULTS

There were 103 boys and 75 girls with a median age of 84 months (range 15-219 months). Sixty-seven percent (n = 119) did not have a coagulopathy diagnosed and 33% (n = 59) did. The diagnoses included von Willebrand disease in 33, platelet aggregation disorders in 10, thrombocytopenia in seven, mild factor VIII deficiency in three, Bernard-Soulier syndrome in two, factor VII deficiency in one, factor IX deficiency in one, and factor XI deficiency in one, and coagulation inhibitor in one. Of the historic data, only a family history of bleeding was predictive of diagnosing a coagulopathy (P = 0.023). The duration and severity of the epistaxis and the presence of other bleeding symptoms had no predictive value. Children with a coagulopathy diagnosed had a longer median partial thromboplastin time (PTT) (33.1 vs. 30.5 seconds; P = 0.012).

CONCLUSIONS

One-third of children presenting with recurrent epistaxis have a diagnosable coagulopathy. A positive family history and a prolonged PPT are useful predictive data.

Significant linkage and non-linkage of type 1 von Willebrand disease to the von Willebrand factor gene

Significant linkage of types 2A and 2B von Willebrand disease (VWD) to the von Willebrand factor (VWF) gene have been reported, as well as mutations in the VWF gene. However, data for the partial quantitative variant are less consistent. An inconsistency of association between the type 1 VWD phenotype and genotype has been reported recently. We undertook linkage analysis of 12 families with definite or possible type 1 VWD patients. One family with classic type 1 VWD had a high lod score (Z = 5.28, theta = 0.00). A total lod score of 10.68 was obtained for the four families with fully penetrant disease. In two families linkage was rejected, while three families did not show conclusive evidence of linkage. This study corroborates ABO blood group influence, especially in patients with mild deficiencies and/or incomplete penetrance. Indirect genetic analysis may be an option for diagnosing asymptomatic or presymptomatic type 1 VWD carriers, particularly in families showing higher penetrance. The study indicates defects of the VWF locus are to be expected in more than half of the families studied. However, as defects at different loci may be the cause of this phenotype, the results of the segregation analyses should be interpreted with caution, especially in studies involving small families, or mild expressions of the disorder or incomplete penetrance.

Von Willebrand factor and von Willebrand disease

von Willebrand disease (vWD) is caused by quantitative and/or qualitative defects of the von Willebrand factor (vWF), a multimeric high molecular weight glycoprotein. Typically, it affects the primary hemostatic system, which results in a mucocutaneous bleeding tendency simulating a platelet function defect. The vWF promotes its function in two ways: (i) by initiating platelet adhesion to the injured vessel wall under conditions of high shear forces, and (ii) by its carrier function for factor VIII in plasma. Accumulating knowledge of the different clinical phenotypes and the pathophysiological basis of the disease translated into a classification that differentiated between quantitative and qualitative defects by means of quantitative and functional parameters, and by analyzing the electrophoretic pattern of vWF multimers. The advent of molecular techniques provided the opportunity for conducting genotype-phenotype studies which have recently helped, not only to elucidate or confirm important functions of vWF and its steps in post-translational processing, but also many disease causing defects. Acquired von Willebrand syndrome (avWS) has gained more attention during the recent years. An international registry was published and recommendation by the Scientific and Standardization Committee of the International Society on Thrombosis and Haemostasis in 2000. It concluded that avWS, although not a frequent disease, is nevertheless probably underdiagnosed. This should be addressed in future prospective studies. The aim of treatment is the correction of the impaired hemostatic system of the patient, ideally including the defects of both primary and secondary hemostasis. Desmopressin is the treatment of choice in about 70% of patients, mostly with type 1, while the others merit treatment with concentrates containing vWF.

Obstetric and gynaecological aspects of von Willebrand disease

The impact of von Willebrand disease in females is pronounced in terms of menorrhagia and postpartum haemorrhage. There is a very high proportion of von Willebrand disease patients with menorrhagia and associated anaemia, impairment of quality of life, including loss of time from work or school, and a high rate of the use of hysterectomy for ultimate control of the bleeding. The 'early' detection of von Willebrand disease in females may avert these complications. Consequently, there have recently been ongoing international efforts to determine the prevalence of von Willebrand disease in females presenting with menorrhagia, providing a prevalence of 7-20% combined from three studies including a total of 300 patients. Issues remain regarding the optimal dose/schedule of intranasal or subcutaneous desmopressin use for menorrhagia and the relative efficacy of anti-fibrinolytic agents. The proper role of oral contraceptives deserves further study in von Willebrand disease patients with menorrhagia as recent studies have paradoxically demonstrated a lower response rate in type 1 than type 2 or 3 von Willebrand disease. Despite the well-known adage of the 'gestational palliation' of von Willebrand disease, there is also a high proportion of postpartum haemorrhage in type 1 patients, especially after the 24 hour post-delivery period. This may occur despite a normalization of the factor VIIIc level in the third trimester, particularly in type 2 and 3 patients. The care-giver must be aware that haemorrhage can occur up to 5 weeks postpartum. In sum, studies over the past decade have documented a substantial impact of menses and childbirth on von Willebrand disease patients. These results should serve as a basis for interventional studies to reduce the morbidity of menstruation and childbirth.