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Product controls bleeding in kids with hemophilia A

Inside Moscone Center, site of

the 2014 ASH Annual Meeting

SAN FRANCISCO—A recombinant factor VIII (FVIII) Fc fusion protein is effective for routine prophylaxis and control of bleeding in previously treated children with severe hemophilia A, according to the first phase 3 study of a long-acting FVIII in very young patients.

Prophylactic treatment of hemophilia A with recombinant FVIII requires frequent infusions, up to 3 to 4 per week.

Conventional FVIII replacement therapies have circulating half-lives of 8 to 12 hours.

And children exhibit faster clearance than adults, which may necessitate even more frequent infusions.

Recombinant FVIII Fc fusion protein (Eloctate) has been shown to have a 1.5-fold longer half-life when compared with recombinant FVIII (Advate) in a phase 3 study of adults and adolescents.

“In a pediatric population, we demonstrated similar pharmacokinetic safety and efficacy in terms of annualized bleeding rate, with no inhibitors and no adverse events related to the drug,” said Guy Young, MD, of the University of Southern California in Los Angeles.

At the 2014 ASH Annual Meeting, Dr Young and his colleagues reported results observed with recombinant FVIII Fc fusion protein in the KIDS A-LONG study (abstract 1494). This phase 3 trial was sponsored by Biogen Idec and Sobi, the companies developing recombinant FVIII Fc fusion protein.

The study enrolled 71 males under the age of 12 with severe hemophilia A (< 1 IU/dL endogenous FVIII activity), who had at least 50 prior exposure days to FVIII and no history of FVIII inhibitors.

The patients received twice-weekly prophylactic infusions of the drug, 25 IU/kg on day 1 and 50 IU/kg on day 4. Adjustments to dosing frequency up to once every 2 days and dose to ≤ 80 IU/kg were made as needed.

A subset of 25 patients under age 6 and 35 patients ages 6 to 11 underwent sequential pharmacokinetic evaluations with their prior FVIII therapy (50 IU/kg), followed by the recombinant FVIII Fc fusion protein (50 IU/kg).

“The recombinant factor VIII Fc fusion protein was effective for routine prophylaxis and for control of bleeding,” Dr Young said. “A low annualized bleeding rate was observed in both age cohorts.”

About three-quarters of the patients had a longer dosing interval with recombinant FVIII Fc fusion protein compared with their prior FVIII prophylactic dosing interval.

About 90% of the patients were on twice-weekly dosing at the end of the study compared with about 75% infusing at least 3 times a week pre-study, Dr Young said. Some 93% of bleeding episodes were controlled with 1 or 2 injections.

“The recombinant FVIII Fc fusion protein had a prolonged half-life and reduced clearance compared with conventional FVIII,” Dr Young noted.

Half-life extension was comparable to that observed in adults and adolescents.

Adverse events were generally similar to those expected for the pediatric hemophilia population.

Some 85.5% of subjects reported at least one adverse event, but no patient discontinued treatment due to an adverse event. Two non-serious events (myalgia and erythematous rash) were related to recombinant FVIII Fc fusion protein.

Five patients (7.2%) experienced a total of 7 serious adverse events, which were not related to treatment. There were no reports of anaphylaxis, vascular thrombotic events, or death.

Dr Young said the next step is to test the recombinant FVIII Fc fusion protein in previously untreated young hemophilia A patients to determine the rate of immunogenicity.

“We don’t expect to see antibodies in these patients,” he said.

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Inside Moscone Center, site of

the 2014 ASH Annual Meeting

SAN FRANCISCO—A recombinant factor VIII (FVIII) Fc fusion protein is effective for routine prophylaxis and control of bleeding in previously treated children with severe hemophilia A, according to the first phase 3 study of a long-acting FVIII in very young patients.

Prophylactic treatment of hemophilia A with recombinant FVIII requires frequent infusions, up to 3 to 4 per week.

Conventional FVIII replacement therapies have circulating half-lives of 8 to 12 hours.

And children exhibit faster clearance than adults, which may necessitate even more frequent infusions.

Recombinant FVIII Fc fusion protein (Eloctate) has been shown to have a 1.5-fold longer half-life when compared with recombinant FVIII (Advate) in a phase 3 study of adults and adolescents.

“In a pediatric population, we demonstrated similar pharmacokinetic safety and efficacy in terms of annualized bleeding rate, with no inhibitors and no adverse events related to the drug,” said Guy Young, MD, of the University of Southern California in Los Angeles.

At the 2014 ASH Annual Meeting, Dr Young and his colleagues reported results observed with recombinant FVIII Fc fusion protein in the KIDS A-LONG study (abstract 1494). This phase 3 trial was sponsored by Biogen Idec and Sobi, the companies developing recombinant FVIII Fc fusion protein.

The study enrolled 71 males under the age of 12 with severe hemophilia A (< 1 IU/dL endogenous FVIII activity), who had at least 50 prior exposure days to FVIII and no history of FVIII inhibitors.

The patients received twice-weekly prophylactic infusions of the drug, 25 IU/kg on day 1 and 50 IU/kg on day 4. Adjustments to dosing frequency up to once every 2 days and dose to ≤ 80 IU/kg were made as needed.

A subset of 25 patients under age 6 and 35 patients ages 6 to 11 underwent sequential pharmacokinetic evaluations with their prior FVIII therapy (50 IU/kg), followed by the recombinant FVIII Fc fusion protein (50 IU/kg).

“The recombinant factor VIII Fc fusion protein was effective for routine prophylaxis and for control of bleeding,” Dr Young said. “A low annualized bleeding rate was observed in both age cohorts.”

About three-quarters of the patients had a longer dosing interval with recombinant FVIII Fc fusion protein compared with their prior FVIII prophylactic dosing interval.

About 90% of the patients were on twice-weekly dosing at the end of the study compared with about 75% infusing at least 3 times a week pre-study, Dr Young said. Some 93% of bleeding episodes were controlled with 1 or 2 injections.

“The recombinant FVIII Fc fusion protein had a prolonged half-life and reduced clearance compared with conventional FVIII,” Dr Young noted.

Half-life extension was comparable to that observed in adults and adolescents.

Adverse events were generally similar to those expected for the pediatric hemophilia population.

Some 85.5% of subjects reported at least one adverse event, but no patient discontinued treatment due to an adverse event. Two non-serious events (myalgia and erythematous rash) were related to recombinant FVIII Fc fusion protein.

Five patients (7.2%) experienced a total of 7 serious adverse events, which were not related to treatment. There were no reports of anaphylaxis, vascular thrombotic events, or death.

Dr Young said the next step is to test the recombinant FVIII Fc fusion protein in previously untreated young hemophilia A patients to determine the rate of immunogenicity.

“We don’t expect to see antibodies in these patients,” he said.

Inside Moscone Center, site of

the 2014 ASH Annual Meeting

SAN FRANCISCO—A recombinant factor VIII (FVIII) Fc fusion protein is effective for routine prophylaxis and control of bleeding in previously treated children with severe hemophilia A, according to the first phase 3 study of a long-acting FVIII in very young patients.

Prophylactic treatment of hemophilia A with recombinant FVIII requires frequent infusions, up to 3 to 4 per week.

Conventional FVIII replacement therapies have circulating half-lives of 8 to 12 hours.

And children exhibit faster clearance than adults, which may necessitate even more frequent infusions.

Recombinant FVIII Fc fusion protein (Eloctate) has been shown to have a 1.5-fold longer half-life when compared with recombinant FVIII (Advate) in a phase 3 study of adults and adolescents.

“In a pediatric population, we demonstrated similar pharmacokinetic safety and efficacy in terms of annualized bleeding rate, with no inhibitors and no adverse events related to the drug,” said Guy Young, MD, of the University of Southern California in Los Angeles.

At the 2014 ASH Annual Meeting, Dr Young and his colleagues reported results observed with recombinant FVIII Fc fusion protein in the KIDS A-LONG study (abstract 1494). This phase 3 trial was sponsored by Biogen Idec and Sobi, the companies developing recombinant FVIII Fc fusion protein.

The study enrolled 71 males under the age of 12 with severe hemophilia A (< 1 IU/dL endogenous FVIII activity), who had at least 50 prior exposure days to FVIII and no history of FVIII inhibitors.

The patients received twice-weekly prophylactic infusions of the drug, 25 IU/kg on day 1 and 50 IU/kg on day 4. Adjustments to dosing frequency up to once every 2 days and dose to ≤ 80 IU/kg were made as needed.

A subset of 25 patients under age 6 and 35 patients ages 6 to 11 underwent sequential pharmacokinetic evaluations with their prior FVIII therapy (50 IU/kg), followed by the recombinant FVIII Fc fusion protein (50 IU/kg).

“The recombinant factor VIII Fc fusion protein was effective for routine prophylaxis and for control of bleeding,” Dr Young said. “A low annualized bleeding rate was observed in both age cohorts.”

About three-quarters of the patients had a longer dosing interval with recombinant FVIII Fc fusion protein compared with their prior FVIII prophylactic dosing interval.

About 90% of the patients were on twice-weekly dosing at the end of the study compared with about 75% infusing at least 3 times a week pre-study, Dr Young said. Some 93% of bleeding episodes were controlled with 1 or 2 injections.

“The recombinant FVIII Fc fusion protein had a prolonged half-life and reduced clearance compared with conventional FVIII,” Dr Young noted.

Half-life extension was comparable to that observed in adults and adolescents.

Adverse events were generally similar to those expected for the pediatric hemophilia population.

Some 85.5% of subjects reported at least one adverse event, but no patient discontinued treatment due to an adverse event. Two non-serious events (myalgia and erythematous rash) were related to recombinant FVIII Fc fusion protein.

Five patients (7.2%) experienced a total of 7 serious adverse events, which were not related to treatment. There were no reports of anaphylaxis, vascular thrombotic events, or death.

Dr Young said the next step is to test the recombinant FVIII Fc fusion protein in previously untreated young hemophilia A patients to determine the rate of immunogenicity.

“We don’t expect to see antibodies in these patients,” he said.

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