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.     

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.     

A variant of von Willebrand''s disease characterized by recessive inheritance and missing triplet structure of von Willebrand factor multimers

A 10-yr-old girl had bleeding symptoms of moderate severity; her mother and maternal aunt had milder bleeding symptoms, and other members of the kindred were asymptomatic. In the child, factor VIII coagulant activity (VIII:C) and von Willebrand factor antigen (vWF:Ag) were normal, ristocetin cofactor very low, and the bleeding time (BT) markedly prolonged. These values were normal in the rest of the kindred, but the mother and maternal aunt had prolonged BT and a high VIII:C/vWF:Ag ratio. Crossed immunoelectrophoresis (CIE) showed a vWF:Ag peak migrating more anodally in the propositus, two distinct peaks, one migrating anodally, in the father, paternal uncle, and grandmother, and normal peaks in the rest of the kindred. In the propositus, analysis of vWF multimers in plasma on 1.6% sodium dodecyl sulfate (SDS) agarose revealed that there were no larger multimers and there was a relative increase of the smallest multimer. This relative increase was also seen in her relatives with a double peak on CIE. Using gels of smaller porosity, each multimer of the propositus's plasma consisted of a single band, instead of the repeating triplet seen in normal and von Willebrand's disease varients types IIA and IIB. The abnormalities found in the propositus are tentatively interpreted as being due to double heterozygosity for two different genes. The defective gene carried by the father affects the triplet structure of vWF multimers, whereas a prolonged BT and a high VII:C/vWF:Ag ratio are the only phenotypic expressions of the defective gene of the mother. The findings of aberrant triplet structure in congenital vWD strengthen the view that this structure is an intrinsic feature of the normal vWF molecule.     

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.     

Laboratory testing for von Willebrand disease: contribution of multimer analysis to diagnosis and classification

The stepwise diagnosis of von Willebrand disease (vWD) includes patient and family history, screening procedures (bleeding time, filter tests, platelet counts, activated partial thromboplastin time [aPTT]), confirmatory tests (von Willebrand factor [vWF]:antigen [Ag], vWF:ristocetin cofactor activity assay [RCo], vWF:collagen-binding test [CB], ristocetin-induced platelet agglutination [RIPA], and factor [F] VIII:coagulant activity [C]) and tests for final classification (multimeric analysis, vWF:factor VIII binding, and platelet vWF). Accumulating knowledge of the different clinical phenotypes and the pathophysiological basis of the disease have been translated into a classification that differentiates between quantitative and qualitative defects by means of quantitative and functional parameters and by analyzing the electrophoretic pattern of vWF multimers, but without inclusion of the genotype. Recently, it has been shown that with a sensitive method of multimer analysis, a > 90% genotype-phenotype relation may be achieved in the near future.     

Profound alterations of the multimeric structure of von Willebrand factor in a patient with malignant lymphoma

Laboratory investigation of an acquired haemorrhagic diathesis in a 63-year-old man with malignant lymphoma revealed the classical haemostatic defects found in von Willebrand's disease (vWD). In addition, SDS-agarose gel electrophoresis demonstrated alterations of the von Willebrand factor (vWF) multimeric structure. A profound defect of large and intermediate size multimers was observed which was different from those seen in variants of congenital vWD. In vitro, weak inhibitory activity against factor VIII procoagulant activity and ristocetin cofactor activity was present in the patient's plasma. When patient's plasma was incubated with normal plasma, followed by centrifugation, vWF antigen (vWF:Ag) was precipitated. In vivo, after transfusion of cryoprecipitate, there was rapid plasma clearance of vWF:Ag and ristocetin cofactor and of FVIII coagulant activities.     

Bleeding prophylaxis for major surgery in patients with type 2 von Willebrand disease with an intermediate purity factor VIII-von Willebrand factor concentrate (Haemate-P).

The parameters to diagnose von Willebrand disease (vWD) include factor VIII coagulant activity (FVIII:C), von Willebrand factor antigen (vWF:Ag), von Willebrand factor ristocetin cofactor activity (vWF:RCo), and von Willebrand factor collagen binding activity (vWF:CB). Type 2 vWD is associated with a moderate bleeding diathesis due to low levels of vWF:RCo and vWF:CB as compared with near normal or normal values for FVIII:C and vWF:Ag. As the factor VIII/von Willebrand factor (vWF) concentrate, Haemate-P, is featured by a vWF:RCo/FVIII:C ratio of about 2.2, the recommended loading dose of 50 U/kg FVIII:C followed by 25 U/kg FVIII:C every 12 h for several days for bleeding prophylaxis in type 2 vWD patients undergoing major surgery demonstrated a predicted significant over-treatment reaching vWF:RCo levels above 2 U/ml. Therefore, we restricted Haemate-P substitution for major surgery to one loading dose of 40-50 U/kg FVIII:C (88-110 U/kg vWF:RCo) followed by 15-20 U/kg FVIII:C (33-44 U/kg vWF:RCo) every 12 h for several days and evaluated this strategy in a prospective pharmacokinetic and efficacy study for bleeding prophylaxis in five type 2 vWD patients. Pre-treatment and peak levels (1 h after Haemate-P loading dose) rose from 0.43-0.66 to 1.5-2.5 U/ml for FVIII:C, from 0.23-0.45 to 1.5-2.5 U/ml for vWF:Ag, from 0.10-< 0.20 to 1.5-2.5 U/ml for vWF:RCo, and from < 0.05-0.10 to 1.0-2.0 U/ml for vWF:CB. Mean in vivo recoveries per transfused IU FVIII:C/kg body weight were 3.2% for FVIII:C, 3.9% for vWF:RCo, and 2.8% for vWF:CB. Mean in vivo recoveries per transfused IU vWF:RCo/kg were 1.45% for FVIII:C, 1.7% for vWF:RCo and 1.25% for vWF:CB. The biological half-life times after transfused Haemate-P were about 12 h for both vWF:RCo and vWF:CB. Based on these pharmacokinetic data, we propose to adapt the loading dose factor VIII/vWF concentrate (Haemate-P) to 60-80 U/kg vWF:RCo followed by 30-40 U/kg vWF:RCo every 12 h for no longer than several days (less than 1 week) for bleeding prophylaxis during major surgery or trauma, and to one loading dose of 40-60 U/kg vWF:RCo for minor surgery, trauma or mucotaneous bleedings in patients with type 2 vWD unresponsive to DDAVP.     

Hemostatic effect of a heat-treated factor VIII concentrate (Haemate P) in von Willebrand's disease

Summary A heat-treated factor VIII (F VIII) concentrate (Haemate P) has been administered to patients with various types of von Willebrand's disease (vWD). The 4 activities of F VIII/vWF as well as change in the multimeric structure of vWF were then studied. In 4 patients with type I vWF who were given a Ristocetin cofactor (Rcof) dose of 42–78 U/kg, there was a clear reduction of the bleeding time and an increase of F VIII:C, F VIII:Ag, Ag, Rcof and vWF: Ag for several hours. The recovery of Rcof. after 1 h was 50–75%. Although the multimeric composition of vWF in these patients was similar to that of normal plasma, the density of each multimer band was very low. After infusion, however, the density of all multimer bands increased for several hours, to decrease again after 24 h. In 4 patients with type II A vWD who received a dose of Rcof of 55–76 U/kg, the 4 activities of F VIII/vWF increased similarly as was the case in type I. All patients had only 3–4 smaller multimer bands. New larger and intermediate multimers appeared for several hours after infusion of the preparation. Two patients with type III vWD who received doses of Rcof of 52 and 65 U/kg showed also a similar increase in the 4 activities of F VIII/vWF after infusion. All the multimers lacking in these patients appeared for several hours after infusion.     

Replacement therapy in platelet-type von Willebrand disease

The response to infusions of cryoprecipitate and factor VIII concentrate was studied in a patient with platelet-type von Willebrand disease (vWD) who showed lack of the large multimers of von Willebrand factor in plasma, increased platelet aggregation with low concentrations of ristocetin, and in vitro platelet aggregation by normal plasma. The cryoprecipitate and factor VIII concentrate to be infused induced platelet aggregation when added to patient platelet-rich plasma at concentrations higher than 0.86 U/ml and 3 U/ml of factor VIII-related antigen (VIIIR:Ag), respectively. Administration of cryoprecipitate (41.9 U VIIIR:Ag/kg body weight) was followed by a shortening of the bleeding time, and hemostasis was achieved during tooth extractions. Factor VIII concentrate (70.2 U VIIIR:Ag/kg) failed to correct the prolonged bleeding time and proved ineffective to control the gum bleeding. No significant diminution of the platelet count was observed following any infusion. These results indicate that cryoprecipitate is hemostatically effective and safe when infused in such a dosage, but factor VIII concentrate is not effective in platelet-type vWD in analogy to what is observed in various types of vWD.     

Systemic lupus erythematosus complicated by acquired von Willebrand's syndrome

Haematological abnormalities are common in systemic lupus erythematosus (SLE). In some cases of acquired von Willebrand syndrome (AvWS), von Willebrand disease (vWD) is associated with autoimmune or lymphoproliferative disorders. In this study, we describe a 36-year-old woman with SLE and AvWS. The patient was referred to our hospital because of easy bruisability and recurrent vaginal bleeding. She had no history of bleeding tendency and no family history of bleeding diathesis, but she had a history of recurrent arthralgia, photosensitivity and sicca symptoms. Tests for antinuclear, anti-double stranded DNA, anticardiolipin and anti-beta2-glycoprotein I antibodies were all positive. Analysis of haemostatic parameters showed complete absence of von Willebrand factor ristocetin cofactor (vWF:Rco), von Willebrand antigen (vWF:Ag) and ristocetin-induced platelet aggregation (RIPA). Electrophoretic analysis of plasma showed a complete absence of high-molecular weight vWF multimer. The presence of antibody to vWF was detected by enzyme linked immunosorbent assay (ELISA). Treatment with corticosteroids improved SLE symptoms and corrected bleeding diasthesis. Also, the multimeric patterns of vWF became normalised and anti-vWF antibody disappeared. These findings indicated that this patient had SLE associated with AvWS, which was ameliorated by corticosteroid treatment.     

Population differences in von Willebrand factor levels affect the diagnosis of von Willebrand disease in African-American women

Diagnosis of von Willebrand disease (vWD) is based on a panel of laboratory tests that measure the amount and function of von Willebrand factor (vWF). In population studies, vWF is higher in African Americans than Caucasians. Bleeding time, factor VIII activity (FVIII), vWF antigen (vWF:Ag), "vWF activity" ELISA (vWF:Act), ristocetin cofactor (vWF:RCof), and ristocetin-induced platelet aggregation (RIPA) were measured on 123 women with menorrhagia and 123 randomly selected control women; 70 cases and 76 controls were African American. Among controls, African Americans had significantly higher levels of vWF:Ag (mean 120 vs. 102 U/dl, P = 0.017). Among all subjects, African Americans had higher levels of vWF:Ag (mean 123 vs. 103, P = 0.001), vWF:Act (mean 101 vs. 89, P = 0.006), and FVIII (mean 118 vs. 104, P = 0.008). VWF:RCof did not differ between races (93 vs. 94 U/dl). RIPA was reduced in African Americans (P < 0.0001). In both races, women with type O blood differed significantly from those with other ABO types in vWF:Ag, vWF:Act, FVIII, and vWF:RCof. Based on criteria of two or more tests below race- and ABO-specific reference ranges, 6.5% of menorrhagia cases and 0.8% of controls were classified as having vWD, or its phenocopy. Among Caucasians, no controls and 7 cases (15.6%) were classified as affected, and in African Americans, 1 control (1.3%) and 1 case (1.4%) were so classified. Racial differences in vWF further complicate the issues surrounding diagnosis of vWD. The finding of increased vWF:Ag not accompanied by increased vWF:RCof has implications for understanding the structure-function relationships of vWF. Published 2001 Wiley-Liss, Inc.     

The roles of von Willebrand factor and factor VIII in arterial thrombosis: studies in canine von Willebrand disease and hemophilia A

We have studied the roles of von Willebrand factor (vWF) and factor VIII in arterial thrombosis in four canine phenotypes: normal (n = 6), hemophilia A (n = 11), von Willebrand disease (vWD) (n = 9), and hemophilia A/vWD (n = 1). vWF activity was determined by botrocetin- induced agglutination of fixed human platelets and vWF antigen (vWF:Ag) by Laurell electroimmunoassay and crossed immunoelectrophoresis. Plasma from normal dogs and those with hemophilia A had vWF activity, vWF:Ag, and a full range of vWF:Ag multimers on gel electrophoresis equivalent to normal canine plasma pool. Platelet cytosol contents were isolated by freezing and thawing, triton X-100 solubilization, or sonication of washed platelets with and without protease inhibitors and inhibitors of platelet activation. Washed platelets were also stimulated with calcium ionophore and MgCl2. There was no measurable vWF activity or vWF:Ag in platelet lysates or releasates in any dog regardless of phenotype. All dogs were studied using a standard arterial stenosis and injury procedure to induce arterial thrombosis. Thromboses were detected by cyclic reductions in Doppler blood flow velocity. Vessels were examined by light and scanning electron microscopy. Thrombosis developed in the arteries of normal (9 of 10) and hemophilia A dogs (16 of 16) but in none of the vWD dogs (0 of 10). Infusion of canine vWF cryoprecipitate into vWD dogs markedly shortened bleeding time but did not support thrombosis as seen in dogs with vWF in the plasma and subendothelium. Thrombosis, then, fails to occur when vWF is absent from the plasma and subendothelial compartments or present only in the plasma compartment. These data are consistent with the hypothesis that vWF in the plasma and subendothelium supports thrombosis. Neither plasma FVIII nor platelet vWF is essential for thrombosis in this model.     

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.     

Characterization of factor VIII/von Willebrand factor concentrates using a modified method of von Willebrand factor multimer analysis

In order to provide patients with von Willebrand disease a factor VIII (FVIII)/von Willebrand factor (vWF) concentrate of reproducible quality, an SDS-agarose gel electrophoresis method has been established to determine the content of the high molecular weight multimers (band 11 and higher) of vWF. This method has been used to characterize the content of high molecular weight vWF multimers in Humate^® P/Haemate^® P, a commercial FVIII/vWF concentrate. The average content of high molecular weight vWF multimers of 47 batches of Humate^® P/Haemate^® P has been determined to be 84.1% of the corresponding bands in normal human plasma. Use of this multimer analysis method for the characterization of five further commercial products revealed clear differences with respect to the high molecular weight vWF multimer content. Furthermore, there is a linear correlation ( r ² = 0.73) between the content of high molecular weight vWF multimers and the specific activity of vWF (determined as vWF:RCoF/vWF:Ag). The method described here for analysis of the content of high molecular weight vWF multimers is a reliable and reproducible method to characterize this class of factor concentrates with respect to vWF multimer composition.     

Prophylactic use of DDAVP in a patient with von Willebrand disease during labor: a case report and a review

A Case of delivery in a 23-year-old woman after a prophylactic infusion of DDAVP is described. She had a life-long history of easy bruising and frequent epistaxis, with the diagnosis of vWD being made when she was 14 years old. A hemostatic examination showed a prolonged bleeding time, a moderate reduction in the factor VIII level (VIII: C) and von Willebrand Factor Antigen (vWF: Ag), decreased platelet aggregation by ristocetin, and depletion of platelet retention. In April, 1988, in the 34th week of pregnancy, she was admitted to our clinic in order to avoid abnormal bleeding during labor. On admission, the level of factor VIII, ristocetin aggregation, and platelet retention were normal, but the bleeding time remained prolonged. The diagnosis of vWD type I was made on the normal multimeric structure. The DDAVP infusion test revealed a shortening of the bleeding time and an increase in the vWF: Ag. In the 41st week of pregnancy, labor was induced, accompanied by infusion of DDAVP, she gave birth to an infant without any abnormal bleeding. Since conventional treatments with human plasma derivatives may cause complicating viral infections, we propose the infusion of DDAVP is one of the treatments to prevent the abnormal bleeding of the patient with vWD during labor.     

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.     

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).     

Function of von Willebrand factor after crossed bone marrow transplantation between normal and von Willebrand disease pigs: effect on arterial thrombosis in chimeras.

von Willebrand factor (vWF) is essential for the induction of occlusive thrombosis in stenosed and injured pig arteries and for normal hemostasis. To separate the relative contribution of plasma and platelet vWF to arterial thrombosis, we produced chimeric normal and von Willebrand disease pigs by crossed bone marrow transplantation; von Willebrand disease (vWD) pigs were engrafted with normal pig bone marrow and normal pigs were engrafted with vWD bone marrow. Thrombosis developed in the chimeric normal pigs that showed normal levels of plasma vWF and an absence of platelet vWF; but no thrombosis occurred in the chimeric vWD pigs that demonstrated normal platelet vWF and an absence of plasma vWF. The ear bleeding times of the chimeric pigs were partially corrected by endogenous plasma vWF but not by platelet vWF. Our animal model demonstrated that vWF in the plasma compartment is essential for the development of arterial thrombosis and that it also contributes to the maintenance of bleeding time and hemostasis.     

New variant of von Willebrand disease with defective binding to factor VIII

A new variant of von Willebrand disease (vWD) was identified by a new analytic method which characterizes the ability of plasma von Willebrand Factor (vWF) to bind to purified factor VIII (F.VIII). vWF was isolated from small amounts of plasma by immunoadsorption with a selected monoclonal antibody to vWF previously coated onto wells of microtitration plates. Plasma F.VIII was removed from immobilized vWF by washing with 0.4 mol/L CaCl2; purified F.VIII was then added to the well. The amount of bound F.VIII was estimated directly in the wells by a chromogenic assay and immobilized vWF was estimated by an immunologic a pool of normal plasma, ten control individuals, 13 with hemophilia A and five with type I vWD. In all cases, the dose-response curves were linear and the slopes of the regression lines were essentially the same. The method was then applied to investigate the binding of vWF to F.VIII in two vWD patients (sister and brother) who demonstrated significantly lower activity of F.VIII than of vWF. The first patient, with a long history of epistaxis, bruising, and hematomas, showed a slightly prolonged bleeding time (10 minutes); 15% VIII:C and 39% of vWF:Ag and vWFRCo. Her brother, who has a bleeding syndrome but no hematomas, showed similar data (bleeding time 9 minutes, 20% VIII:C, 53% vWF:Ag and vWFRCo). Similar levels of F.VIII were observed in the two propositi by four different methods (one- and two-stage clotting and chromogenic and immunologic assays). Sodium dodecyl sulfate (SDS) 1.4% agarose gel electrophoresis showed that all multimers of vWF were present in both patients. vWF binding to F.VIII was markedly decreased in the two propositi. The abnormal binding of vWF to F.VIII was not corrected during pregnancy or after infusion of 1-deamino (8-D- arginine) vasopressin despite an increase in vWF levels. The qualitative abnormality of vWF in both patients was associated with a subtle alteration of the multimeric structure by SDS 3% agarose gel electrophoresis in which the two central subbands of the quintuplet of individual oligomers were undetectable or poorly visible. SDS- polyacrylamide gel electrophoresis under reducing conditions demonstrated a single band of 275 Kd in the plasma of both patients, and there was no evidence of a second band corresponding to pro-vWF, the precursor of the mature vWF subunit, suggesting that proteolytic processing of vWF was normal.(ABSTRACT TRUNCATED AT 400 WORDS)