Response to desmopressin in type IID von Willebrand's disease

Dominant transmission of a variant of von Willebrand's disease (vWD) with aberrant polymerization of von Willebrand factor (vWF) has been identified in a Scottish family. Multimer analysis of plasma vWF from the propositus and her father revealed an identical pattern to that previously reported in families designated as type IID vWD. There is loss of the larger multimers and presence of an intermediate subsidiary band not seen in normal subjects or other vWD variants. Platelet/vWF interaction induced by ristocetin is not enhanced in these cases and the platelet vWF shows the same aberrant multimer pattern as plasma vWF. DDAVP infusion in two affected members of the Scottish family and in one of the index cases produced a rise in plasma vWF antigen and factor VIII. Higher molecular weight vWF multimers appeared transiently after infusion of desmopressin (1-deamino-8-D-arginine vasopressin, abbreviated DDAVP) coincident with shortening of the bleeding time. The platelet counts did not change after the DDAVP infusions. DDAVP should be considered for management of bleeding in this variant of von Willebrand's disease.     

DDAVP shortens the prolonged bleeding times of patients with severe von Willebrand disease treated with cryoprecipitate. Evidence for a mechanism of action independent of released von Willebrand factor

After infusion of cryoprecipitate, the very prolonged bleeding time of patients with severe von Willebrand disease (vWD) is shortened but not always normalized in spite of normalization of plasma von Willebrand factor (vWF) levels. Therefore treatments that further improve primary hemostasis in severe vWD patients are needed. Since DDAVP shortens the bleeding time in a variety of bleeding disorders, we investigated in a double-blind, placebo-controlled crossover study the effects of the intravenous (IV) infusion of DDAVP (0.3 microgram/kg) on the bleeding times of 10 patients with severe vWD treated with cryoprecipitate. Their very prolonged bleeding times (greater than 30 minutes), partially corrected by the infusion of cryoprecipitate (14 +/- 2 minutes, mean +/- SEM), were further shortened by the administration of DDAVP (9 +/- 2 minutes, P less than .01) but not of saline (15 +/- 3 minutes, ns). Plasma vWF levels, raised from unmeasurable to normal values by cryoprecipitate, were not changed after DDAVP or saline. The defective deposition of platelets from eight patients onto human umbilical artery subendothelium was increased but not normalized by cryoprecipitate and was not significantly affected by DDAVP or saline. Therefore the infusion of DDAVP after cryoprecipitate may be of clinical benefit for management of bleeding episodes in severe vWD patients. Since severe vWD patients do not have releasable tissue stores of vWF, DDAVP must shorten their prolonged bleeding times independently of released vWF.     

Laboratory monitoring of therapy in von Willebrand disease: efficacy of the PFA-100 and von Willebrand factor:collagen-binding activity as coupled strategies

Clinical management of von Willebrand disease (or von Willebrand disorder [vWD]) often involves factor replacement or desmopressin acetate (DDAVP) therapy to control (potential) bleeding. Laboratory monitoring involves testing patient samples prior to therapy and at discreet time points after therapy. Classical testing generally comprises assays for factor VIII:coagulant activity, von Willebrand factor (vWF):antigen and vWF:ristocetin cofactor activity. The PFA-100 (platelet function analyser) is a relatively new tool for the investigation of primary hemostasis, and studies have shown its potential utility in identifying both vWD and platelet disorders, and in monitoring DDAVP therapy in these patients. However, the PFA-100 has limited utility in monitoring factor replacement therapy. The collagen-binding activity (vWF:CB) assay is a relatively new functional vWF assay and studies have also shown its utility in identifying vWD, and in monitoring both DDAVP and factor replacement therapy in these patients. This review assesses the laboratory monitoring of therapy for vWD with a special focus on the combined potential utility of the PFA-100 and a vWF:CB assay sensitive for the presence or absence of large vWF multimers. This review should be of value to both hemostasis scientists and clinical specialists.     

Women and von Willebrand disease

In 1926 von Willebrand made the observation that 'the trait seemed especially to be seen among women'. A pictorial bleeding assessment chart (PBAC) defines menorrhagia with a score of >100 representing >80 ml blood loss. A retrospective study has shown menorrhagia in 74% patients with von Willebrand disease (vWD) and vWD in 13% patients with menorrhagia. Although von Willebrand factor (vWF) increases in pregnancy, there may be an increased incidence of post partum haemorrhage. DDAVP is a useful treatment for menorrhagia and postnatally. Clotting factor concentrates containing vWF may be required.     

DDAVP in type IIa von Willebrand's disease

1-D-Amino(8-D-arginine)-vasopressin (DDAVP) infusion in three patients with type IIa von Willebrand's disease (vWD) resulted in a normalization of the factor VIII coagulant, factor VIII-related antigen, and von Willebrand factor (vWF) (ristocetin cofactor) activities and the bleeding time. The normalization of these hemostatic parameters persisted for four hours. Over the same time period there was a marked increase in the quantity of the vWF multimers when blood was collected in the presence of protease inhibitors. The vWF multimers present were even larger than the normal. When blood was collected in the absence of protease inhibitors, a smaller increase in the plasma vWF multimers was observed and fewer of the intermediate and larger vWF multimers were seen; multimers larger than those present in normal plasma were not visualized. The platelet vWF multimers and activities did not change with or without inhibitors. These studies suggest that there is a subgroup of patients with type IIa vWD who respond to DDAVP with complete normalization of their hemostatic abnormalities and whose vWF is sensitive to proteolysis.     

von Willebrand's disease characterized by increased ristocetin sensitivity and the presence of all von Willebrand factor multimers in plasma

In eight members of one family, platelets in platelet-rich plasma aggregated at much lower ristocetin concentrations than normal. Ivy bleeding time was variously prolonged, and von Willebrand factor antigen (vWF:Ag), ristocetin cofactor activity, and factor VIII coagulant activity were decreased. Most of the affected members had had slight to rather severe bleeding symptoms. Platelet-type von Willebrand's disease (vWD) could be ruled out. All multimers of vWF:Ag were found in plasma as well as platelets. Administration of 1-desamino-8-D-arginine vasopressin (DDAVP) to the propositus did not cause thrombocytopenia, and platelet-poor plasma obtained immediately after did not aggregate normal platelets. The molecular defect in this family, inherited as an autosomal dominant, resembles the one in type IIB because of the response to ristocetin but differs from IIB because all vWF:Ag multimers are present in plasma and the response to DDAVP is atypical. We conclude that this family has a new subtype of vWD and propose that structural as well as functional criteria should be used for a proper classification of vWD.     

Management of von Willebrand disease: a survey on current clinical practice from the haemophilia centres of North America.

The optimal treatment of patients with von Willebrand's disease (vWD) remains to be defined. Moreover, it has not been firmly established which, if any, commonly measured parameters of von Willebrand factor (vWF) protein in the plasma are useful in guiding treatment. To better understand what guidelines physicians follow in the management of vWD, we surveyed 194 North American physicians who are members of the Hemophilia Research Society. Ninety-nine per cent of responding physicians depend on factor VIII (FVIII):C, vWF:RCo activity and vWF:AG to diagnose vWD, while only 49% use the bleeding time. The minimal goals of treatment for patients undergoing major surgery/trauma or central nervous system haemorrhage were FVIII:C and vWF:RCo activity greater than 80% while levels of more than 50% for minor surgery and dental extractions were considered adequate. Treatment of vWD was based on the type of vWD with type 1 patients being treated most often with desmopressin acetate (DDAVP) alone, types 2A and 2B patients with a combination of DDAVP and a vWF-containing FVIII product, type 3 patients with vWF-containing concentrate. Viral infections, including human immunodeficiency virus, hepatitis A, B and C viruses, and parvovirus have been seen in vWD and the efficacy of viral attenuation processes is a major criterion for the selection of treatment by physicians. Based on this survey, prospective studies need to be designed to address the clinical efficacy, safety and predictive value of laboratory monitoring of patients with vWD.     

Studies of the pathophysiology of acquired von Willebrand''s disease in seven patients with lymphoproliferative disorders or benign monoclonal gammopathies

In seven patients with acquired von Willebrand's disease (AvWD) associated with lymphoproliferative disorders or benign monoclonal gammopathies, the platelet contents of von Willebrand factor antigen and ristocetin cofactor (vWF:Ag and vWF:RiCof, respectively) were normal. All the multimers of vWF:Ag could be seen in the 1.6% SDS- agarose gel electrophoresis patterns of plasma and platelet lysates. Infusion of 1-deamino-8-D-arginine vasopressin (DDAVP) augmented plasma levels of vWF:Ag and vWF:RiCof of all patients and corrected prolonged bleeding times (BT). However, compared with patients with congenital vWD type I and comparable degrees of baseline abnormalities treated in the same way, vWF:Ag and vWF:RiCof were increased less and cleared more rapidly from plasma and the BT remained normal for a shorter period of time. These studies provide evidence that these AvWD patients have qualitatively normal vWF in plasma, but at lower concentrations, that vWF in platelets is normal both qualitatively and quantitatively, and that cellular vWF can be rapidly released into plasma by DDAVP to correct the hemostatic abnormalities. However, vWF is removed rapidly from plasma, making the correction more transient than in congenital vWD type I.     

Use of ristocetin cofactor activity in the management of von Willebrand disease

von Willebrand disease (vWD), the most common of the hereditary bleeding disorders, arises from quantitative or qualitative defects in von Willebrand factor (vWF). vWF is a multimeric plasma protein that plays a key role in primary and secondary haemostasis. In the current classification scheme, vWD is divided into six subtypes that are based on the nature of the vWF defect. Therapeutic strategies depend on the accurate identification of these subtypes. In most clinical situations, desmopressin is effective treatment for the great majority of patients with mild (type 1) disease, while replacement therapy with factor VIII/vWF concentrates that contain high levels of vWF activity is required for most type 2 and nearly all type 3 vWD patients. Several factor VIII/vWF replacement products are available, one of which (Humate P) has been approved for the treatment of vWD by the US Food and Drug Administration. Preliminary results of recent studies support the hypothesis that treatment with factor VIII/vWF concentrates based upon the content of vWF activity as reflected in the ristocetin cofactor assay is practicable, safe and efficacious. The establishment of optimal treatment regimens with respect to dose intensity and duration will require further study.     

Desmopressin (DDAVP) in bleeding disorders of childhood

As in adults, desmopressin (DDAVP) can be used in children for prophylaxis of bleeding and to stop bleeding in many hereditary and acquired bleeding disorders. DDAVP is the treatment of choice in children with mild hemophilia and type 1 von Willebrand's disease (vWD). It is effective in some variants of vWD and in many patients with platelet function defects. It reduces the bleeding diathesis of children with uremia and drug-induced bleeding complications. In any case, a test dose of DDAVP has to be given to the patient to predict the hemostatic effect before relying on this drug for treatment. The response can be measured by shortening of the bleeding time (BT) and of partial thromboplastin time (PTT), indicating a rise of Factor (F) VIII or von Willebrand factor (vWF). Side effects such as facial flushing, transient headache, increased pulse rate, and drop in systolic blood pressure are mild and transient. They can be minimized when the dose is not exceeding 0.3 microg/kg body weight, and the infusion lasts at least 20 to 30 minutes. The strong antidiuretic action of DDAVP has some potential problems that are negligible in adults and older children when water intake is restricted. In infants and small children under the age of 18 months, however, DDAVP should be used with caution and with close surveillance in order to prevent water intoxication and electrolyte imbalance. The danger is increased when the patients receive parenteral fluid substitution. The advantages of DDAVP include the reduction in the use of plasma factor concentrates, thereby minimizing the danger of immunological or infectious complications, as well as the considerable reduction of costs realized by treatment with this form of medication. Fortunately, it can be applied successfully in the most frequent hereditary bleeding disorder, namely vWD type 1.     

Management of von Willebrand disease in developing countries

A variety of treatment options are available at present for patients with von Willebrand disease (vWD), some of which are affordable for patients in developing countries. For most patients who have type 1 vWD, desmopressin acetate (DDAVP) is the treatment of first choice, at least for minor bleedings and for prophylaxis. It is advisable, however, to use a test dose first to note the patient's response. DDAVP is safe to use, affordable, and easy to administer. However, most patients with type 2 vWD and all patients with type 3 fail to respond to DDAVP. For these patients, other options are used. Almost all patients with vWD will benefit from fresh frozen plasma and from cryoprecipitate, and these are viable options for developing countries. Both have certain disadvantages, but they can, depending upon the circumstances and facilities, be produced in developing countries. In developed countries, factor VIII/von Willebrand factor concentrates are widely used, especially for major bleedings and for surgeries on these patients. These concentrates are safe and virus inactivated, but costly. Ancillary treatment modalities such as antifibrinolytic agents and certain hormones are usually given in conjunction with other modalities. The treatment of patients with antibodies to vWF is also described, and monitoring needs during therapy are reviewed.     

Characterization, classification, and treatment of von Willebrand diseases: a critical appraisal of the literature and personal experiences

Recessive type 3 von Willebrand disease (vWD) is a severe hemophilia-like bleeding disorder caused by homozygosity or double heterozygosity for two nonsense mutations (null alleles) and characterized by a strongly prolonged bleeding time (BT), absence of ristocetin-induced platelet aggregation (RIPA), absence of von Willebrand factor (vWF) protein, and prolonged activated partial thromboplastin time (APTT) due to factor VIII (FVIIIC): deficiency. Recessive severe type 1 vWD is caused by homozygosity or double heterozygosity for a missense mutation and differs from type 3 vWD by the detectable presence vWF:antigen (Ag) and FVIII:C levels between 0.09 and 0.40 U/mL. Carriers of one null allele or missense mutations are usually asymptomatic at vWF levels of 50% of normal. Mild recessive type 1 vWD may be due to a missense mutations, or one missense mutation plus blood group O. The so-called dominant type 1 vWD secretion defect and type 1 Vicenza are caused by a heterozygous missense mutation in the vWF gene that produces a mutant vWF protein having a dominant effect on the normal vWF protein produced by the normal vWF allele with regard to the defective processing, storage secretion, and/or proteolysis of vWF in endothelial cells and clearing from plasma consistent with a type 2 phenotype of vWD. Typical type 2 vWD patients, except 2N, show a defective vWF protein, decreased ratios for vWF:ristocetin cofactor [vWF:RCo]/vWF:Ag and vWF:collagen binding factor [vWF:CB]/vWF:Ag and prolonged BT. The BT is normal and FVIII:C levels clearly are lower than vWF:Ag in type 2N vWD. Multimeric analysis of vWF in plasma demonstrates that proteolysis of vWF is increased in type 2A and 2B vWD, with increased triplet structure of each band (not present in types 2M and 2U). Proteolysis of vWF is minimal in type 2C, 2D, and 2E variants that show aberrant multimeric structure of individual oligomers. vWD 2B differs from 2A by normal vWF in platelets, and increased RIPA. RIPA is normal in mild, decreased in moderate, and absent in severe type 2A vWD. RIPA is decreased or absent in 2M, 2U, 2C, and 2D; variable in 2E; and normal in 2N and dominant type 1. vWD 2M is usually mild and features decreased vWF:RCo and RIPA, and a normal or near-normal vWF multimeric pattern in a low-resolution agarose gel. vWD 2A-like or unclassifiable (2U) is distinct from 2A and 2B and typically features low vWF:RCo and RIPA with the relative lack of large vWF multimers. vWD type 2C is recessive; the dominant type 2D is rare. The response to desmopressin acetate (DDAVP) of vWF parameters is normal in pseudo-vWD and mild type 1. The responses to DDAVP of FVIII:C and vWF parameters in vWD 2M, Vincenza, 2E, and mild 2A, 2U, and 2N are transiently good for a variable number of hours to arrest mucocutaneous bleeding episodes or to prevent bleeding during minor surgery or trauma. However, the responses are not good enough to treat major bleedings or to prevent bleeding during major surgery or trauma. The response to DDAVP of vWF parameters is poor in recessive type 3, 1 and 2C, and dominant 2A, 2B, and 2U. Proper recommendations of FVIII/vWF concentrates using FVIII:C and vWF:RCo unit dosing for the prophylaxis and treatment of bleeding episodes in type 2 disease that is nonresponsive to DDAVP and in type 3 vWD are proposed.     

Patients with severe von Willebrand disease are insensitive to the releasing effect of DDAVP: evidence that the DDAVP-induced increase in plasma factor VIII is not secondary to the increase in plasma von Willebrand factor

Summary It is generally held that factor VIII (FVIII) does not increase in the plasma of severe von Willebrand disease (vWD) patients treated with DDAVP because they lack von Willebrand factor (vWF), which is the plasma carrier for FVIII. To test this hypothesis, FVIII plasma levels were monitored in severe vWD patients treated with DDAVP after normalization of vWF plasma levels with infusions of cryoprecipitate. Each of four severe vWD patients underwent four different treatments at intervals of at least 15 d: (1) cryoprecipitate plus DDAVP; (2) cryoprecipitate plus saline; (3) cryoprecipitate plus recombinant FVIII (rFVIII); (4) saline plus rFVIII. Cryoprecipitate increased the plasma levels of FVIII and vWF. The infusions of saline or DDAVP after cryoprecipitate did not further increase FVIII and vWF plasma levels and had no effect on the plasma levels of tissue plasminogen activator (tPA), which are raised by DDAVP in normal subjects and in patients with vWD of other types. The infusion of rFVIII further increased by 182 ± 32 U/dl (mean ± SEM) the plasma levels attained after cryoprecipitate, which disappeared from the circulation with a half-life of 11.95 ± 0.86 h. In contrast, the infusion of rFVIII after saline increased by only 107 ± 18 U/dl the plasma levels of FVIII, which disappeared from the circulation with a half-life of 2.68 ± 0.14 h, indicating that the vWF infused with cryoprecipitate is able to bind additional FVIII. These studies indicate that DDAVP does not increase the plasma levels of FVIII in patients with severe vWD even after normalization of plasma vWF. The possibility is discussed that severe vWD patients may be insensitive to the releasing effect of DDAVP.     

Clinical efficacy of highly purified, doubly virus-inactivated factor VIII/von Willebrand factor concentrate (Fanhdi®) in the treatment of von Willebrand disease: a retrospective clinical study

The goal of therapy in patients with von Willebrand disease (vWD) is to correct the dual defect of primary haemostasis and intrinsic coagulation reflected by low levels of von Willebrand factor (vWF) and factor VIII coagulant activity (FVIII:C). Factor VIII/von Willebrand factor (FVIII/vWF) concentrates are currently the treatment of choice in vWD patients unresponsive to desmopressin (DDAVP). However, only few studies on their clinical use are available so far. The main objective of this study was to retrospectively evaluate the clinical efficacy of a highly purified, doubly virus-inactivated FVIII/vWF concentrate with a high content of FVIII/vWF (Fanhdi). Twenty-two patients with congenital vWD have been treated from 1999 to 2001 at eight specialized centres belonging to the Italian Association of Hemophilia Centers (AICE). Ten males and 12 females, median age 28.5 years, range 5-70 years) had type 3 vWD (six cases), DDAVP-unresponsive type 1 (nine cases) and type 2B (seven cases). The study drug was given to stop or prevent 12 bleeding episodes or to prevent excessive bleeding during 14 surgical or invasive procedures. Overall, replacement therapy with the concentrate showed an excellent to good clinical efficacy in 92% of bleeding episodes and in 93% of surgical procedures. No adverse events occurred during 1,601 infusions, accounting for a total of 304,500 IU of FVIII:C administered. These results confirm the efficacy and safety of this concentrate in the management of bleeding episodes and in the prevention of excessive bleeding during major and minor surgery.     

Unique multimeric pattern of von Willebrand factor in a patient with a benign monoclonal gammopathy

A 60-yr-old woman had had a bleeding disorder for the last 13 yr, with laboratory features of monoclonal gammopathy and von Willebrand's disease (vWD). There was no evidence of family vWD. She had a prolonged bleeding time, low levels of factor VIII/von Willebrand factor activities and decreased ristocetin-induced platelet agglutination. Platelet von Willebrand factor (vWF) was normal. Plasma vWF showed a unique multimeric pattern with absence of larger and intermediate multimers and a disproportionate increase of the fastest moving multimer with normal satellite bands, thus differing from previously described types of vWF. No evidence for inhibitor, non neutralizing antibody or proteolytic activity against vWF was found in her plasma or IgG fraction. DDAVP response was very poor. We suggest that this patient had a unique, probably acquired, vWD. Nevertheless the possibility of its being a new subtype of congenital vWD associated with an unrelated monoclonal gammopathy cannot be ruled out.     

Guidelines for the diagnosis and management of von Willebrand disease in Italy

von Willebrand disease (vWD) is a bleeding disorder caused by quantitative (type 1 and 3) or qualitative (type 2) defects of von Willebrand factor (vWF). The molecular basis of type 2 and 3 vWD are now known and those of type 1 vWD are being understood. Phenotypic diagnosis is based on the measurements of plasma and platelet vWF, of the ability of vWF to interact with platelet receptors and the analysis of the multimeric structure of vWF. Due to the heterogeneity of vWF defects and the variables that interfere with vWF levels, a correct diagnosis of types and subtypes may sometimes be difficult but is very important for therapy. The aim of treatment is to correct the dual defects of haemostasis, i.e. abnormal intrinsic coagulation expressed by low levels of factor VIII (FVIII) and abnormal platelet adhesion. Desmopressin is the treatment of choice in patients with type 1 vWD, who account for approximately 70% of cases, because it corrects FVIII-vWF levels and the prolonged bleeding time (BT) in the majority of these patients. In type 3 and in severe forms of type 1 and 2 vWD patients, desmopressin is not effective and it is necessary to resort to plasma concentrates containing FVIII and vWF. Treated with virucidal methods, these concentrates are effective and safe, but they cannot always correct BT defect. Platelet concentrates or desmopressin can be used as adjunctive treatments when poor correction of BT after plasma concentrate treatment is associated with continued bleeding.     

Diagnosis and management of von Willebrand disease

von Willebrand disease (vWD) is a bleeding disorder caused by quantitative or qualitative defects of von Willebrand factor (vWF). The diagnosis is based on measurements of plasma and platelet vWF, the ability of vWF to interact with its platelet receptor and the analysis of the mutlimeric composition of vWF. Due to the heterogeneity of vWF defects, a correct diagnosis of types and subtypes may be sometimes difficult but is very important for an appropriate therapy. The aim of treatment is to correct the dual defects of haemostasis, i.e. abnormal coagulation expressed by low levels of factor VIII (FVIII) and abnormal platelet adhesion expressed by a prolonged bleeding time (BT). Desmopressin is the treatment of choice in patients with type 1 vWD, who account for approximately 80% of cases, because it corrects the FVIII/vWF levels and the prolonged BT in most of these patients. In type 3 and in the majority of type 2 vWD patients, desmopressin is not effective and it is necessary to resort to plasma concen-trates containing FVIII and vWF. Treated with virucidal methods, these concentrates are effective and currently safe, but the BT defect is not always corrected by them. Platelet concentrates or desmopressin can be used as adjunctive treatments when poor correction of the BT after concentrates is associated with continued bleeding.     

Heterogeneity of type I von Willebrand disease: evidence for a subgroup with an abnormal von Willebrand factor

Type I von Willebrand disease (vWD) is characterized by equally low plasma concentrations of von Willebrand factor antigen (vWF:Ag) and ristocetin cofactor (RiCof) and by the presence of all vWF multimers in sodium dodecyl sulfate (SDS)-agarose gel electrophoresis. For 17 patients (13 kindreds) diagnosed with these criteria, we have studied the platelet contents of vWF:Ag and RiCof and the changes of these in plasma after DDAVP infusion. Platelet vWF:Ag and RiCof were normal in four kindreds (called "platelet normal" subgroup); following 1-deamino- 8-D-arginine vasopressin; plasma vWF:Ag, RiCof and the bleeding time (BT) became normal. In six kindreds, platelet vWF:Ag and RiCof were equally low (platelet low); after DDAVP, plasma vWF:Ag and RiCof remained low, and the BT was prolonged. In three additional kindreds, platelets contained normal concentrations of vWF:Ag, but RiCof was very low (platelet discordant); even though a complete set of multimers was found in plasma and platelets, there was a relatively small amount of large multimers. After DDAVP, plasma vWF:Ag became normal, but RiCof remained low and the BT was very prolonged. These findings demonstrated that there can be an abnormal vWF (RiCof less than vWF:Ag) even in type I vWD, coexisting with a complete set of vWF multimers (platelet discordant); that the abnormal vWF can be shown more clearly in platelets than in plasma or else in plasma after DDAVP infusion; and that DDAVP normalizes the BT only in those patients with normal platelet levels of both vWF:Ag and RiCof (platelet normal).     

A probable double heterozygous type II von Willebrand's disease with increased ristocetin induced platelet aggregation.

We have identified a patient with von Willebrand's disease (vWD) resembling type IIB vWD, with increased ristocetin induced platelet aggregation (RIPA), the absence of the large multimers of von Willebrand factor (vWF) in plasma, and the presence of the large multimers in platelets in whom a family study indicated a probable double heterozygous inheritance pattern. The propositus was a 12-year-old boy with frequent epistaxis and bruising. Abnormal hemostatic findings included a prolonged bleeding time (BT), decreased levels of factor VIII coagulant activity (VIIIC), von Willebrand factor antigen (vWF:Ag), ristocetin cofactor (RCof), and an increased RIPA. In the presence of ristocetin, binding of the patient's plasma vWF to normal platelets was increased but binding of normal vWF to his platelets was normal. SDS-agarose gel (1.5%) electrophoresis revealed that plasma vWF lacked the large multimers, and 3.0% gel electrophoresis revealed that the multimers had a 5-band pattern similar to normal. The above findings were consistent with type IIB vWD, but 1-deamino[8-D-arginine]-vasopressin (DDAVP) infusion resulted in a shortened BT and the transient appearance of large multimers without a decrease in the platelet count. Family studies revealed that his mother has mild bleeding symptoms, decreased VIIIC, vWF:Ag, and RCof levels and normal to slightly reduced RIPA with a multimer pattern consistent with type I vWD. In contrast, the father, sister, and paternal grandfather were asymptomatic, with a slightly decreased VIIIC level but a normal BT and vWF:Ag and RCof levels. Their RIPA and vWF binding to normal platelets were increased, but unlike the propositus their plasma contained large multimers. We concluded that the propositus is a type IIB-like variant differing from previously reported IIB variants in two ways: 1) his response to DDAVP and 2) a possible double heterozygous mode of inheritance rather than the usual dominant route.     

New variant of von Willebrand disease type II with markedly increased levels of von Willebrand factor antigen and dominant mode of inheritance: von Willebrand disease type IIC Miami

A variant of von Willebrand disease (vWD) was identified in six members of a kindred spanning four generations. The proband was a 46-year-old woman with a lifelong history of bleeding, a prolonged bleeding time (> 15 minutes), markedly elevated von Willebrand factor (vWF) antigen (vWF:Ag = 2.09 U/mL), slightly reduced ristocetin cofactor activity, and a plasma vWF multimer pattern similar to that of vWD type IIC. Similar findings were observed in her three children, mother, and brother. In affected family members, platelet and plasma vWF multimer patterns were discrepant with higher molecular weight multimers observed in platelet vWF. Following a 1-Des-amino-8-D-arginine vasopressin (DDAVP) challenge, the proband failed to normalize her bleeding time even though vWF: Ag rose by 70% and higher molecular weight multimers were increased slightly. Genetic studies were consistent with autosomal dominant inheritance of a mutation within the vWF gene. By sequencing of cloned genomic DNA, mutations were excluded in exons 4, 5, 14, and 15, which encode regions of the vWF propeptide proposed to be important in multimer biosynthesis. Mutations also were excluded in exons 28 to 31, which encompass the known mutations that cause vWD types IIA, IIB, and B. This new variant of vWD, characterized by autosomal dominant inheritance, a qualitative defect that resembles vWD type IIC, and increased plasma vWF:Ag, was tentatively designated vWD type IIC Miami.