Guidelines for the evaluation of intravenous desmopressin and von Willebrand factor/factor VIII concentrate in the treatment and prophylaxis of bleedings in von Willebrand disease types 1, 2, and 3

The current standard for the diagnosis and management of patients with congenital von Willebrand disease (vWD) includes bleeding times (BTs), PFA-100 closure time (PFA-CT), factor (F) VIII:coagulant activity (C), vWF:antigen (Ag), vWF:ristocetin cofactor activity (RCo), a sensitive vWF:collagen-binding activity (CB), ristocetin-induced platelet aggregation (RIPA), analysis of vWF multimers in low- and high-resolution agarose gels, and the response to desmopressin. Guidelines and recommendations for prophylaxis and treatment of bleedings in vWD patients with vWF/FVIII concentrates should be derived from analysis of the content of these concentrates and from pharmacokinetic studies in different types of vWD patients with severe type 1, 2, or 3 vWD. The vWF/FVIII concentrates should be characterized by labeling with FVIII:C, vWF:RCo, vWF:CB, and vWF multimeric pattern, which will determine their predicted efficacy and safety in prospective management studies. Because the bleeding tendency is moderate in type 2 and severe in type 3 vWD, and because the FVIII:C levels are subnormal in type 2 and very low in type 3 vWD patients, new guidelines using vWF:RCo unit dosing for the prophylaxis and treatment of bleeding episodes are proposed. Such guidelines should be stratified for the severity of bleeding, the type of surgery (either minor or major), and also for the severity and type of vWD (i.e., either type 2 or 3 vWD).     

Comparative analysis and classification of von Willebrand factor/factor VIII concentrates: impact on treatment of patients with von Willebrand disease

von Willebrand disease (vWD) is a bleeding disorder that results from defects in the quality or quantity of von Willebrand factor (vWF), a glycoprotein essential for normal thrombus formation. vWF circulates in plasma as multimers in sizes ranging up to 20,000 kd. The high molecular weight vWF (HMWvWF) multimers are most essential for primary hemostasis, whereas the lower molecular weight multimers are less functionally active. For many patients, the treatment of choice is factor replacement with a vWF/FVIII concentrate, preferably one with a high content of HMWvWF multimers. Given that the commercially available vWF/FVIII concentrates seem to differ substantially in their biochemical properties as well as in their clinical efficacy, we did a comparative study with 12 vWF/FVIII concentrates to investigate content and activities of FVIII and vWF, as well as the content of HMWvWF multimers. The content of HMWvWF multimers varied considerably among the 12 concentrates. The specific vWF activities, as assessed by ristocetin cofactor activity (vWF:RCo) and collagen-binding activity (vWF:CB), correlated well with the HMWvWF content of the products. Of the products tested, Haemate P/Humate-P had the highest content of HMWvWF multimers (with a multimer pattern closest to that of normal human plasma), the highest specific vWF activities, and the highest values of vWF:RCo and vWF:CB per unit of FVIII:coagulant (C). The goal of bleeding prophylaxis and treatment in type 2, severe type 1, and type 3 vWD patients is to normalize vWF activities (vWF:RCo and vWF:CB) and FVIII:C preferentially by vWF/FVIII concentrates containing the high vWF multimers and a high vWF:RCo/FVIII ratio to achieve normal primary and secondary hemostasis. Based on the present study of a comparative analysis of currently available vWF/FVIII concentrates, a classification of vWF/FVIII products is proposed.     

Clinical and biological evaluation in von Willebrand's disease of a von Willebrand factor concentrate with low factor VIII activity

Summary. This study was carried out to assess the clinical efficacy in von Willebrand's disease (vWD) of a new, very high purity (VHP), solvent/detergent (SD)-treated, vWF concentrate (VHP Human von Willebrand Factor Concentrate, Biotransfusion) characterized by a high specific ristocetin cofactor (vWF:RCo) activity and a low factor VIII (FVIII) coagulant activity (FVIII:C). Nine patients (four type I, one type IIA, one type IIB, one type IIC, one type III and one acquired type II) were infused on 13 occasions including a pharmacokinetic study. Satisfactory haemostasis was achieved in all cases, including the treatment of spontaneous haemorrhages and the prevention of bleeding following surgery. The bleeding time was corrected for 6–12 h in 6/9 patients and shortened in the others. Furthermore, it was shown that the plasma vWF multimeric pattern of types II and III patients was greatly improved. When measured in eight patients 1 h after infusion, the vWF: RCo recovery was 77·3 (± 10·7)% while the F VIII:C recovery was strikingly higher (876 ± 906%). This high recovery is likely related to the predominant ‘pseudo-synthesis’ of FVIII following the restoration of normal vWF levels. Maximum levels of FVIII: C occurred 6–12 h after the first infusion and normal levels of FVIII:C were maintained throughout the treatments with a dosage of 26–39 IU/kg vWF:RCo and only 0·2–5 IU/kg FVIII:C. The half-lives of the vWF-related parameters determined in a type III vWD patient were 20·6 h for vWF antigen, 17·8 h for vWF:RCo, 14 h for the high molecular weight multimers of vWF, 55·3 h for FVIII: Ag and 74 h for FVIII:C. In conclusion, it does not appear necessary that vWF concentrates intended for the treatment of vWD should contain FVIII in addition to vWF to be clinically effective in most patients.     

Efficacy and safety of a factor VIII–von Willebrand factor concentrate 8Y: stability, bacteriological safety, pharmacokinetic analysis and clinical experience

The present study was undertaken to evaluate stability, pharmacokinetic profile and efficacy of continuous infusion of 8Y in patients with different types of von Willebrand disease (vWD). Following reconstitution, 8Y levels of von Willebrand factor ristocetin cofactor (vWF:Rco), vWF antigen and factor VIII coagulant activity (FVIII:C) decreased to about 80% of the baseline levels; addition of low molecular weight heparin decreased the level of FVIII:C even further. Reconstituted 8Y was found to be sterile for up to 6 days postreconstitution. Ten vWD patients (four with type 2A, three with type 3, two with type 1 and one with 2N) underwent pharmacokinetic analysis. The recovery of vWF: RCo was significantly lower in patients with type 3 vWD (1.4 +/- 0.05% U(-1) kg(-1)) compared with that of the patients with types 1 (2.3 +/- 0.52% U(-1) kg(-1)) or 2A (2.0 +/- 0.06% U(-1) kg(-1)) vWD (P = 0.015). Type 3 vWD patients exhibited significantly higher vWF:RCo clearance (5.1 +/- 1.1 mL kg(-1) h(-1)) compared with that of patients with type 2A (2.8 +/- 0.7 mL kg(-1) h(-1)) and type 1 (2.6 +/- 1.0 mL kg(-1) h(-1)) vWD (P = 0.028). Accordingly, terminal half-life was lower in patients with type 3 vWD (8.0 +/- 0.6 h(-1)) compared with type 2A (12.7 +/- 5.9 h(-1)) or type 1 (14 +/- 1.2 h(-1)) vWD patients. Multimeric pattern of vWF from patients' plasma was similar to that of 8Y. In two patients treated with 8Y by continuous infusion for prevention or treatment of bleeding haemostasis was achieved. Thus, 8Y is suitable and haemostatically effective for continuous infusion treatment in patients with vWD.     

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.     

A comparative in vitro evaluation of six von Willebrand factor concentrates

The efficacy of von Willebrand factor (VWF) concentrates for treatment of von Willebrand disease (VWD) is dependent on their content of VWF and factor VIII (FVIII). STUDY OBJECTIVES: To measure the content and quality of VWF and FVIII in six VWF concentrates: Haemate-P (Aventis Behring), Immunate (Baxter Bioscience), Koate (Bayer Corp.), 8Y (BPL), Innobrand (LFB) and Facteur Willebrand (LFB). METHODS: The VWF antigen content (VWF:Ag), ristocetin cofactor activity (VWF:RCo), collagen-binding activity (VWF:CB), VWF multimers with electrophoresis and densitometry, FVIII activity and total protein content. RESULTS: Specific activity (VWF:RCo/total protein) varied considerably (4.7-129.5 IU mg(-1)). Activity measures, VWF:RCo and VWF:CB, correlated well, but we found no correlation between any of these and VWF:Ag. The content of high-molecular weight multimer (HMWM) was normal or close to normal in Haemate-P, Innobrand and Facteur Willebrand, moderately reduced in Koate and 8Y, and significantly reduced in Immunate. The HMWM content correlated significantly with the VWF:RCo/VWF:Ag ratio. Only Haemate-P, Innobrand and Facteur Willebrand had VWF:RCo/VWF:Ag ratios >0.7. We found large differences in the content of FVIII and in the FVIII/VWF:RCo ratio. Facteur Willebrand had the lowest (0.02) and Immunate the highest (6.00) ratio. CONCLUSION: Treating physicians must be aware of the large differences between different VWF concentrates and the potential clinical implications. Concentrates lacking HMWM are probably less efficient for mucosal bleedings. FVIII is most important for surgical bleedings, but concentrates with high FVIII/VWF-ratio may induce very high FVIII levels with increased risk of thrombosis. A low FVIII content may be preferable except in case of acute surgery.     

Successful treatment of patients with von Willebrand disease using a high-purity double-virus inactivated factor VIII/von Willebrand factor concentrate (Immunate)

Fourteen patients with different types of von Willebrand disease (vWD) having acute bleeds or elective surgery were treated with Immunate(sound recording copyright sign), a double-virus inactivated factor VIII/von Willebrand factor (FVIII/vWF) concentrate. The concentrate was applied as a bolus or via continuous infusion. FVIII activity (FVIIIc), vWF antigen (vWF:Ag), ristocetin cofactor activity (vWF:RCo), collagen binding activity (vWF:CB), activated partial thromboplastin time (aPTT), and von Willebrand multimers (vW-multimers) were monitored for 48 hours. Pharmacokinetic analyses were performed. The clinical efficacy was rated excellent or good. Bleeding complications occurred in 3 patients due to an additional FXIII deficiency in one patient, to a surgically induced bleed in another patient, and a rather short substitution period in the third patient. There were no serious adverse experiences. One patient showed a phlebitic reaction at the site of venous access after more than 100 hours of continuous infusion, requiring a change to application via bolus.     

Characterization of von Willebrand factor in factor VIII concentrates

Commercial concentrates of factor VIII (FVIII) were analyzed in order to 1) determine the effects of viral inactivation on von Willebrand factor (vWF); 2) evaluate the vWF content of the new, immunopurified concentrates; and 3) assess their potential for correcting the long bleeding time of von Willebrand disease (vWD). Included in our study were products that had been treated to inactivate viruses; older, untreated products; and the new, immunopurified concentrates. We measured von Willebrand factor antigen (vWF:Ag), ristocetin cofactor activity (RCoF), and vWF multimeric and subunit composition. A newly developed radioimmunoassay (RIA) was used to quantitate vWF:Ag. The vWF:Ag content varied from 0.083 micrograms/IU FVIII:C for Hemofil M to 32.2 micrograms/IU FVIII:C for Humate-P, whereas pooled normal human plasma (NHP) contained 6.3 micrograms/IU FVIII:C. The RCoF varied from 0.0007 to 2.09 U/IU FVIII:C, with the immunopurified concentrates having the lowest values and Humate-P the highest. The ratio of RCoF to vWF:Ag ranged from 11 to 96 U/mg, as compared to a ratio of 160 for NHP. All of the concentrates lacked the largest vWF multimers, and all had abnormal triplet patterns. Modest differences between some untreated concentrates and their treated counterparts were noted. As expected, the immunopurified concentrates had much lower levels of all vWF activities than the conventionally prepared products. Our data suggest that none of the concentrates have as great a capacity as NHP to correct the prolonged bleeding time of von Willebrand disease.     

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.     

Haemostatic treatment in connection with surgery in patients with von Willebrand disease

Haemostatic treatment in patients with von Willebrand disease (vWD) in connection with surgery aims at normalizing the haemostatic defect in order to avoid bleeding complications. Factor VIII (FVIII) levels in plasma must be normalized in connection with major surgery, whereas the bleeding time is more important for mucous membrane bleedings. Most patients respond well to treatment with desmopressin which stimulates the endogenous release of FVIII and von Willebrand factor (vWF) and shortens the bleeding time. Non-responders to desmopressin are substituted with a plasma-derived factor concentrate which contains vWF and FVIII. This paper includes a summary of retrospective data from the last 10 years on haemostatic treatment in connection with surgery from four haemophilia centres in Sweden and Denmark on 40 invasive procedures in 27 vWD patients and on one normal delivery. If a FVIII-containing concentrate is given prior to surgery a dose of 30–40 IU VIII:C kg⁻¹ will normalize FVIII levels in most severe cases. If a pure vWF concentrate is used, a dose of 40–50 IU RCoF kg⁻¹ will normalize RCoF in most cases, but FVIII levels will not be normalized until after about 12 h or later. Repeated doses of FVIII-vWF concentrate may lead to very high levels of FVIII in plasma because of the combined effect of the exogenous FVIII-substitution and the endogenous FVIII-release induces by the infused vWF. Dosage should be adjusted according to FVIII levels in plasma.     

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.     

Optimizing therapy with factor VIII/von Willebrand factor concentrates in von Willebrand disease

In von Willebrand disease, the main goals of treatment are to correct the dual defect of haemostasis caused by a reduced or abnormal von Willebrand factor (vWF), i.e. the prolonged bleeding time (BT) and the deficiency of factor VIII coagulant activity (FVIII:C). The synthetic vasopressin analogue, desmopressin (DDAVP), has reduced the need for transfusions in most of the mild forms of von Willebrand disease but DDAVP is ineffective in type 3 and in other severe cases of types 1 and 2 von Willebrand disease. For many years cryoprecipitate has been the mainstay of replacement therapy but, after the introduction of virucidal methods, concentrates containing FVIII/vWF have been considered much safer than cryoprecipitate and proposed in von Willebrand disease management. FVIII/vWF concentrates have been produced and tested by many authors but there is only one report describing four virus-inactivated FVIII/vWF concentrates evaluated in a cross-over randomized trial. According to these in vitro and pharmacokinetic data, the following information can be derived: (a) no FVIII/vWF concentrate had an intact multimeric structure similar to that of normal plasma or of cryoprecipitate; (b) all FVIII/vWF concentrates were equally effective in attaining normal and sustained levels of FVIII:C postinfusion, although peak levels were more delayed in the concentrate devoid of FVIII:C; (c) no FVIII/vWF concentrate consistently normalized the BT in a sustained fashion. On the other hand, clinical haemostasis can be achieved in the management of bleeding episodes and of surgery for most of von Willebrand disease cases regardless of whether the BT is corrected; in the few rare cases with mucosal bleeding not controlled by FVIII/vWF concentrates, infusion of DDAVP or platelet concentrates can be administered in addition.     

von Willebrand factor containing factor VIII concentrates

There are several plasma derived von Wille-brand factors (vWF) containing factor (FVIII) concentrates that can be used in the treatment of von Willebrand disease (vWD). All concentrates are effective in attaining normal postinfusion levels or of FVIII:C but it is difficult to achieve normalization of the bleeding time even with concentrates containing almost all vWF multimers including those of high molecular weight. Haemate P (Centeon) may be considered as the golden standard concentrate available at present. However, the development of more purified vWF concentrates devoid of FVIII:C is the goal for future development.     

Comparative study on collagen-binding enzyme-linked immunosorbent assay and ristocetin cofactor activity assays for detection of functional activity of von Willebrand factor

For more than two decades, the ristocetin cofactor (RCo) assay, which measures the von Willebrand factor (vWF)-mediated agglutination of platelets in the presence of the antibiotic ristocetin, has been the most common method for measuring the functional activity of vWF. There is, however, general agreement among clinical analysts that this method has major practical disadvantages in performance and reproducibility. Today, collagen-binding assays (CBA) based on the enzyme-linked immunosorbent assay (ELISA) technique that measure the interaction of vWF and collagen are an alternative analytic procedure based on a more physiological function than that of the RCo procedure. We used both assay systems in a comparative study to assess the functional activity of vWF in plasma as well as in therapeutic preparations. We measured RCo activities of plasma from healthy donors and patients with different types of von Willebrand disease (vWD) and of vWF as a drug substance in factor (F) VIII/vWF concentrates using both the aggregometric and the macroscopic methods. In addition, we measured collagen-binding activity (vWF:CB) using a recently developed commercially available CBA system. To investigate the relation between the structure and the functional activity of vWF, we isolated vWF species with different numbers of multimers from FVIII/vWF concentrates by affinity chromatography on immobilized heparin. The vWF:RCo and vWF:CB of the different fractions were measured, and the multimeric structure of vWF was analyzed by sodium dodecyl sulfate (SDS) agarose gel electrophoresis. (vWF:CB and vWF:RCo are part of the nomenclature proposed by the International Society on Thrombosis and Hemostasis Scientific and Standardization Committee [ISTH SSC] subcommittee on von Willebrand factor, in Maastricht, Germany, June 16, 2000.) Measurement of functional vWF activity by CBA can be carried out with substantially higher interassay reproducibility than can measurement of RCo. Both assay systems can be used for diagnosis and subtyping of vWD, but CBA is more sensitive than either of the two RCo methods. The analysis of vWF multimers in the different fractions obtained by affinity chromatography on heparin Sepharose showed that the activity measured both with RCo assay and CBA correlated with the degree of multimerization. Our results suggest that measurement of the functional activity of vWF by the RCo procedure can be replaced by the more reliable CBA, reflecting the physiological hemostatic activity of vWF. The CBA method appears not only to be more sensitive and easier to carry out than the RCo method is but also to have a higher reproducibility and allow better standardization.     

Recombinant von Willebrand factor: preclinical development

Von Willebrand factor (vWF) is a multimeric glycoprotein (GP) that attracts platelets to the site of vascular injury, mediates platelet-platelet interaction, and stabilizes factor VIII (FVIII) in the circulation. Quantitative and qualitative defects of vWF result in von Willebrand disease (vWD), manifested by modest to severe bleeding episodes. Substitution therapy, with plasma-derived FVIII/vWF complex concentrates, is used for patients suffering the more severe forms of vWD. Efficacy of these preparations is often unsatisfactory because inadvertent proteolytic degradation during the manufacturing process causes them to lack the hemostatically most active high-molecular-weight multimers. In contrast, recombinant vWF (r-vWF), which is constitutively expressed at high yields in Chinese hamster ovary (CHO) cells and secreted into the conditioned medium under perfusion fermentation in "protein-free" medium, has high-molecular-weight multimers of extraordinary structural integrity. Functional analysis has shown that r-vWF promotes ristocetin cofactor-mediated platelet aggregation, collagen interaction and FVIII binding, and platelet-collagen adhesion under shear stress. Infusing vWF-deficient animals with r-vWF corrected vWF concentration and reduced blood loss, subsequently stabilizing endogenous FVIII associated with the reduction of bleeding time. Compared with plasma-derived vWF preparations, r-vWF was found to have a prolonged half-life, further enhancing the potential value of r-vWF as a therapeutic agent for treating patients suffering from vWD.     

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.     

The mutation Arg (53)----Trp causes von Willebrand disease Normandy by abolishing binding to factor VIII. Studies with recombinant von Willebrand factor.

von Willebrand factor (vWF) and factor VIII (FVIII) circulate in plasma as a noncovalently linked protein complex. The FVIII/vWF interaction is required for the stabilization of procoagulant FVIII activity. Recently, we reported a new variant of von Willebrand disease (vWD) tentatively named "Normandy," characterized by plasma vWF that appears to be structurally and functionally normal except that it does not bind FVIII. Three patients from one family were found to be homozygous for a C----T transition at codon 816 converting Arg 53 to Trp in the mature vWF subunit. To firmly establish a causal relationship between this missense mutation and vWD Normandy phenotype, we have characterized the corresponding recombinant mutant vWF(R53W). Expressed in COS-7 cells or CHO cell lines, normal vWF and vWF(R53W) were processed and formed multimers with equal efficiency. However, vWF(R53W) exhibited the same defect in FVIII binding as did plasma vWF from patients with vWD Normandy, confirming that this mutation is responsible for the vWD Normandy phenotype. These results illustrate the importance of Arg 53 of the mature vWF subunit for the binding of FVIII to vWF, and identify an amino acid residue within a disulfide loop not previously known to be involved in this interaction.     

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.     

Successful treatment of urgent bleeding in von Willebrand disease with factor VIII/VWF concentrate (Humate-P®): use of the ristocetin cofactor assay (VWF:RCo) to measure potency and to guide therapy

This prospective, open-label, non-randomized study evaluated the safety and efficacy of factor VIII (FVIII)/von Willebrand Factor (VWF) concentrate (Humate-P) using treatment regimens based on VWF:ristocetin cofactor (VWF:RCo) activity in patients with von Willebrand Disease (VWD) in (i) urgent bleeding episodes, or (ii) in patients undergoing urgent and necessary surgery. This article summarizes the results of treatment for the 33 patients with 53 urgent bleeding events. The median loading dose of FVIII/VWF concentrate was 67.0 international units per kilogram (IU kg(-1)) VWF:RCo (range 25.7-143.2 IU kg(-1)), and the median daily maintenance dose per infusion was 74.0 IU kg(-1) (range 16.4-182.9 IU kg(-1)) for a median duration of 2 days (range 1-34 days). The overall efficacy (achievement of haemostasis) of FVIII/VWF concentrate was rated as excellent/good for 98% of the urgent bleeding events. No unexpected treatment-related adverse events or serious drug-related adverse events (AEs) were observed. This study supports the safety and efficacy of Humate-P administered in doses calculated in VWF:RCo units for the treatment of urgent bleeding episodes in patients with VWD.     

Further evidence for recessive inheritance of von Willebrand disease with abnormal binding of von Willebrand factor to factor VIII.

A new family with a bleeding diathesis and FVIII deficiency secondary to abnormal binding of von Willebrand factor (vWF) to factor VIII (FVIII) is described. Two propositi of this family, an 18-year-old male and a 33-year-old female, both with a history of epistaxis, bruising, bleeding from the gums, epistaxis, hemarthrosis, and hematoma, were analyzed. Also additional members of the same family with no bleeding history were also studied. The propositi showed normal vWF activities, low FVIII activity; one of them had been diagnosed as having hemophilia A and the other was a hemophilia A carrier. Both showed a very poor response to treatment with FVIII concentrates and desmopressin (DDAVP) but a good clinical response to cryoprecipitate. APTT was prolonged and no inhibitory activity was noticeable in their plasmas. Thirty-five units per kilogram body weight of Hemofil M was infused to both propositi and FVIII reached basal level within 60 minutes of the infusion. No FVIII response at all was observed in the female after intravenous DDAVP administration. However, the male who received the infusion of 35 U/kg body weight of Humate-P achieved a normal FVIII level that was maintained for 12 hours. Multimeric analysis of vWF was normal in all the members studied. Von Willebrand factor domain for FVIII binding was assayed in the two propositi and in six other members of the same family by using a non-isotopic and sensitive method, a modification of the one previously described, using the Hemofil M concentrate as exogenous FVIII. The data obtained showed that both propositi had similar binding to that observed by using plasma of a patient with severe von Willebrand disease. Furthermore, five siblings had a decreased binding of vWF to FVIII, when compared with plasma from normal individuals or patients with hemophilia A. We also observed that, for screening purpose, the ratio of bound FVIII/immobilized vWF (at saturation of the anti-vWF and offering of 1 U/ml of exogenous FVIII) distinguished two levels of abnormality (normal range 0.70-1.15, propositi 0.004-0.007, and remaining members affected 0.25-0.42). The most probable explanation is that the propositi are homozygous or double heterozygous, the other five siblings affected being heterozygous for a recessive vWF defect. This more accessible assay presented here may be of help in routine analysis for diagnosing this type of von Willebrand disease, which has important implications for therapy and genetic counseling.