Dr. Ragni has participated in six trials of Fc fusion factor VIII and factor IX proteins, will be participating in a trial of a pegylated factor VIII protein, and has served on the Biogen Idec Advisory Board. Dr. Ragni also receives research funding from Baxter Bioscience, Baxter Healthcare, Bayer, Biogen Idec, CSL Behring, and past funding from Novo Nordisk.

Study Titles:

Multiple studies of long-acting recombinant replacement factors for treatment of hemophilia A and B

Clinicaltrials.gov Identifiers:

Coordinators:

Baxter, Bayer, Biogen Idec, CSL Behring, and Novo Nordisk

Participating Centers:

12 to 93 sites in North America, South America, Europe, Asia, Africa, and Australia

Accrual Goal:

12 to 172 patients

Study Design:

The table lists 13 currently enrolling trials of long-acting recombinant factor VIII (rF.VIII) or rF.IX for treatment of patients with hemophilia A or hemophilia B, respectively. These are multinational phase II/III or III trials designed to test whether long-acting factors are safe and effective in the treatment of hemophilia. The trials test the agents in the setting of active bleeding and for prophylaxis (for use in preventing spontaneous bleeding or in preventing excess bleeding in patients undergoing surgical procedures). In some studies, pharmacokinetics are assessed. Eligibility criteria are males with previous factor exposure with severe hemophilia A or B, defined as a plasma F.VIII or F.IX concentration of &lg; 0.01 U/ml in some studies or up to < 0.02 U/ml in other studies. The products include rF.VIII or rF.IX that are pegylated, glycopegylated, fused with albumin, or fused with the Fc fragment of IgG. Phase I studies of the products listed in the table (below) have to date demonstrated safety, prolonged half-life, and delayed clearance as compared with standard rF.VIII and rF.IX. The dosing regimens, modeled from pharmacokinetic data, vary from approximately twice weekly for the long-lasting rF.VIII products to approximately once weekly for the long-lasting rF.IX products. The primary endpoint for the non-surgical prophylactic studies is incidence of anti-VIII antibody or anti-IX antibody formation, and secondary endpoints include hemostasis for bleeding episodes and annualized bleed rates. For the surgical studies, the primary endpoint is hemostasis.

Clinical TrialCoordinatorClinicalTrials.gov IdentifierParticipating CentersAccrual Goal
N9-GPRecombinant FIX with Site-Specific Glycopegylation
Safety, Efficacy in SurgeryAn Open-Label, Multicenter, Uncontrolled Trial to Assess Efficacy and Safety of NNC-0156-0000-0009 During Surgical Procedures in Patients with Hemophilia B Novo Nordisk NCT01386528 19 sites:N AmericaEuropeAsiaAfrica 12 
Safety, EfficacySafety and Efficacy of NNC-0156-0000-0009 After Long-Term Exposure in Patients with Hemophilia B Novo Nordisk NCT01395810 29 sites:N AmericaEuropeAsiaAfrica 70 
Safety, Efficacy in ChildrenSafety, Efficacy, and Pharmacokinetics of NNC-0156-0000-0009 in Previously Treated Children with Hemophilia B Novo Nordisk NCT01467427 12 sites:N AmericaS AmericaEuropeAsia 24 
rFIXFcRecombinant FIX Fusion Protein with Fc Fragment of IgG
Safety, Efficacy in ChildrenAn Open-Label, Multicenter Evaluation of Safety, Pharmacokinetics, and Efficacy of Recombinant Coagulation Factor IX Fc Fusion Protein, BllB 029, in the Prevention and Treatment of Bleeding Episodes in Pediatric Subjects with Hemophilia B Biogen Idec NCT01440946 17 sites:N AmericaEuropeAsiaAfricaAustralia 26 
rFVIIIFcRecombinant FVIII Fusion Protein with Fc Fragment of IgG
Safety, Efficacy in ChildrenAn Open-Label, Multicenter Evaluation of Safety, Pharmacokinetics, and Efficacy of Recombinant Coagulation Factor VIII Fc Fusion Protein, BIIB 031, in the Prevention and Treatment of Bleeding Episodes in Previously Treated Pediatric Subjects with Severe Hemophilia A Biogen Idec NCT01458106 27 sites:N AmericaEuropeAsiaAustralia 50 
N8-GPRecombinant FVIII with Site-Specific Glycopegylation
Safety, EfficacyA Multinational Trial Evaluating Safety and Efficacy, Including Pharmacokinetics of NNC 0129-0000-1003 When Administered for Treatment and Prophylaxis of Bleeding in Patients with Hemophilia A Novo Nordisk NCT01480180 52 sites:N AmericaEuropeAsiaAustralia 172 
Safety, Efficacy in SurgeryEfficacy and Safety of NNC 0129-0000-1003 During Surgical Procedures in Patients with Hemophilia A Novo Nordisk NCT01489111 41 sites:N AmericaEuropeAsia 18 
Safety, Efficacy in Previously Untreated ChildrenSafety and Efficacy of NNC 0155-0000-0004 in Prevention and Treatment of Bleeds in Pediatric Previously Untreated Patients with Hemophilia A Novo Nordisk NCT01493778 29 sites:N AmericaS AmericaEuropeAsia 60 
Safety, Efficacy in ChildrenA Multinational, Open-Label, Uncontrolled Trial on Safety, Efficacy, and Pharmacokinetics of NNC 0129-0000-1003 in Previously Treated Pediatric Patients with Severe Hemophilia A Novo Nordisk NCT01731600 Sites: ongoingN AmericaS AmericaEuropeAsia 60 
r-FIX-FPRecombinant IX Fusion Protein with Albumin
A Phase II/III Open-Label, Multicenter, Safety and Efficacy Study of a Recombinant Coagulation Factor IX Albumin Fusion Protein (rIX-FP) in Patients with Hemophilia B CSL Behring NCT01496274 31 sites:N AmericaEuropeAsia 60 
A Phase III Open-Label, Multicenter, Pharmacokinetic, Safety and Efficacy Study of a Recombinant Fusion Protein Linking Coagulation Factor IX with Albumin (rIX-FP) in Previously Treated Children with Hemophilia B CSL Behring NCT01662531 20 sites:N AmericaEuropeAsiaAustralia 24 
rFVIII PegylatedRecombinant FVIII with Site-Specific Pegylation
Safety, EfficacyA Phase II/III Multicenter, Partially Randomized, Open-Label Trial Investigating Safety and Efficacy of On-Demand and Prophylactic Treatment with BAY94-9027 in Severe Hemophilia A Bayer NCT01580293 93 sites:N AmericaS AmericaEuropeAsia 130 
rFVIII PegylatedRecombinant FVIII with Random Pegylation
Safety, EfficacyA Phase II/III Multicenter, Open-Label Study of Efficacy, Safety, and Pharmacokinetics of PEGylated Recombinant Factor VIII (BAX 855) Administered for Prophylaxis and Treatment of Bleeding in Previously Treated Patients with Severe Hemophilia A Baxter Healthcare NCT01736475 Sites: ongoingN AmericaEurope 146 
Clinical TrialCoordinatorClinicalTrials.gov IdentifierParticipating CentersAccrual Goal
N9-GPRecombinant FIX with Site-Specific Glycopegylation
Safety, Efficacy in SurgeryAn Open-Label, Multicenter, Uncontrolled Trial to Assess Efficacy and Safety of NNC-0156-0000-0009 During Surgical Procedures in Patients with Hemophilia B Novo Nordisk NCT01386528 19 sites:N AmericaEuropeAsiaAfrica 12 
Safety, EfficacySafety and Efficacy of NNC-0156-0000-0009 After Long-Term Exposure in Patients with Hemophilia B Novo Nordisk NCT01395810 29 sites:N AmericaEuropeAsiaAfrica 70 
Safety, Efficacy in ChildrenSafety, Efficacy, and Pharmacokinetics of NNC-0156-0000-0009 in Previously Treated Children with Hemophilia B Novo Nordisk NCT01467427 12 sites:N AmericaS AmericaEuropeAsia 24 
rFIXFcRecombinant FIX Fusion Protein with Fc Fragment of IgG
Safety, Efficacy in ChildrenAn Open-Label, Multicenter Evaluation of Safety, Pharmacokinetics, and Efficacy of Recombinant Coagulation Factor IX Fc Fusion Protein, BllB 029, in the Prevention and Treatment of Bleeding Episodes in Pediatric Subjects with Hemophilia B Biogen Idec NCT01440946 17 sites:N AmericaEuropeAsiaAfricaAustralia 26 
rFVIIIFcRecombinant FVIII Fusion Protein with Fc Fragment of IgG
Safety, Efficacy in ChildrenAn Open-Label, Multicenter Evaluation of Safety, Pharmacokinetics, and Efficacy of Recombinant Coagulation Factor VIII Fc Fusion Protein, BIIB 031, in the Prevention and Treatment of Bleeding Episodes in Previously Treated Pediatric Subjects with Severe Hemophilia A Biogen Idec NCT01458106 27 sites:N AmericaEuropeAsiaAustralia 50 
N8-GPRecombinant FVIII with Site-Specific Glycopegylation
Safety, EfficacyA Multinational Trial Evaluating Safety and Efficacy, Including Pharmacokinetics of NNC 0129-0000-1003 When Administered for Treatment and Prophylaxis of Bleeding in Patients with Hemophilia A Novo Nordisk NCT01480180 52 sites:N AmericaEuropeAsiaAustralia 172 
Safety, Efficacy in SurgeryEfficacy and Safety of NNC 0129-0000-1003 During Surgical Procedures in Patients with Hemophilia A Novo Nordisk NCT01489111 41 sites:N AmericaEuropeAsia 18 
Safety, Efficacy in Previously Untreated ChildrenSafety and Efficacy of NNC 0155-0000-0004 in Prevention and Treatment of Bleeds in Pediatric Previously Untreated Patients with Hemophilia A Novo Nordisk NCT01493778 29 sites:N AmericaS AmericaEuropeAsia 60 
Safety, Efficacy in ChildrenA Multinational, Open-Label, Uncontrolled Trial on Safety, Efficacy, and Pharmacokinetics of NNC 0129-0000-1003 in Previously Treated Pediatric Patients with Severe Hemophilia A Novo Nordisk NCT01731600 Sites: ongoingN AmericaS AmericaEuropeAsia 60 
r-FIX-FPRecombinant IX Fusion Protein with Albumin
A Phase II/III Open-Label, Multicenter, Safety and Efficacy Study of a Recombinant Coagulation Factor IX Albumin Fusion Protein (rIX-FP) in Patients with Hemophilia B CSL Behring NCT01496274 31 sites:N AmericaEuropeAsia 60 
A Phase III Open-Label, Multicenter, Pharmacokinetic, Safety and Efficacy Study of a Recombinant Fusion Protein Linking Coagulation Factor IX with Albumin (rIX-FP) in Previously Treated Children with Hemophilia B CSL Behring NCT01662531 20 sites:N AmericaEuropeAsiaAustralia 24 
rFVIII PegylatedRecombinant FVIII with Site-Specific Pegylation
Safety, EfficacyA Phase II/III Multicenter, Partially Randomized, Open-Label Trial Investigating Safety and Efficacy of On-Demand and Prophylactic Treatment with BAY94-9027 in Severe Hemophilia A Bayer NCT01580293 93 sites:N AmericaS AmericaEuropeAsia 130 
rFVIII PegylatedRecombinant FVIII with Random Pegylation
Safety, EfficacyA Phase II/III Multicenter, Open-Label Study of Efficacy, Safety, and Pharmacokinetics of PEGylated Recombinant Factor VIII (BAX 855) Administered for Prophylaxis and Treatment of Bleeding in Previously Treated Patients with Severe Hemophilia A Baxter Healthcare NCT01736475 Sites: ongoingN AmericaEurope 146 

Rationale:

It is well established that prophylaxis prevents spontaneous bleeding in individuals with severe hemophilia. Using current available replacement therapy to maintain the goal for effective prophylaxis (>1% plasma factor levels), rF.VIII is dosed approximately three times weekly and rF.IX is dosed approximately twice weekly. Although prophylaxis clearly reduces the incidence of major morbidity and disability, patient compliance is poor due to venous access problems frequently encountered in children and to inconvenience in the case of adults (Walsh CE et al. Haemophilia. 2009;15:1014-1021). The availability of replacement factors with a longer half-life than that of currently available products might reduce the frequency of infusion such that ports may no longer be required in young children, and a reduction in dosing frequency may encourage participation by those who have been reluctant previously to attempt prophylaxis. The more favorable pharmacokinetics of the longer-acting replacement factors may further reduce the morbidity that is a consequence of recurrent hemarthroses and thereby improve the quality of life of patients with hemophilia. A long-range goal is to tailor therapy based on individual pharmacokinetic modeling.

Comment:

Although the development of longer-acting replacement therapy has generated a great deal of excitement in the field, the cost:benefit ratio is a concern as the pricing of the new agents is unknown. To add perspective to this issue, the current cost of replacement therapy for an adult with hemophilia A ranges from $149,000 to $360,000 annually. Thus, depending on pricing, the availability of the longer-acting recombinant proteins could conceivably lower the cost of replacement therapy because less frequent dosing would be required. Economic constraints, however, limit treatment options for patients with hemophilia in much of the world as approximately 75 percent of replacement therapy is used by 15 percent of the total affected population (Skinner M. Haemophilia. 2012;18(Suppl 5):3-5). Without a major reduction in cost, this skewing of use of replacement therapy is likely to persist despite the advent of the longer-acting recombinant proteins. Although much work is left to be done in the field, patients with hemophilia A and hemophilia B and their treating physicians have reasons for optimism given the development of long-acting replacement proteins and the recent progress in gene therapy for hemophilia B. A trove of information should accrue from the broad range of studies being conducted on the long-acting replacement factors, and the effort and resources invested in the organization and implementation of these multinational clinical trials merits recognition.