Abstract
PurposeHemophilia B is a bleeding disorder, caused by a factor IX (FIX) deficiency. Recently, FIX concentrates with extended half-life (EHL) have become available. Prophylactic dosing of EHL-FIX concentrates can be optimized by assessment of individual pharmacokinetic (PK) parameters. To determine these parameters, limited sampling strategies (LSSs) may be applied. The study aims to establish adequate LSSs for estimating individual PK parameters of EHL-FIX concentrates using in silico evaluation.MethodsMonte Carlo simulations were performed to obtain FIX activity versus time profiles using published population PK models for N9-GP (Refixia), rFIXFc (Alprolix), and rIX-FP (Idelvion). Fourteen LSSs, containing three or four samples taken within 8 days after administration, were formulated. Bayesian analysis was applied to obtain estimates for clearance (CL), half-life (t1/2), time to 1% (Time1%), and calculated weekly dose (Dose1%). Bias and precision of these estimates were assessed to determine which LSS was adequate.ResultsFor all PK parameters of N9-GP, rFIXFc and rIX-FP bias was generally acceptable (range: −5% to 5%). For N9-GP, precision of all parameters for all LSSs was acceptable (< 25%). For rFIXFc, precision was acceptable for CL and Time1%, except for t1/2 (range: 27.1% to 44.7%) and Dose1% (range: 12% to 29.4%). For rIX-FP, all LSSs showed acceptable bias and precision, except for Dose1% using LSS with the last sample taken on day 3 (LSS 6 and 10).ConclusionBest performing LSSs were LSS with samples taken at days 1, 5, 7, and 8 (N9-GP and rFIXFc) and at days 1, 4, 6, and 8 (rIX-FP), respectively.
Highlights
Hemophilia B is an X-linked congenital bleeding disorder, caused by over 2100 different mutations in the factor IX (FIX) gene resulting in a factor IX deficiency
Since 2016, three FIX concentrates with an extended half-life (EHL) have been approved by the European Medicines Agency: PEGylated FIX (N9-GP, Refixia®), FIX fused to the neonatal Fc receptor, and FIX fused with human albumin [6,7,8]
Due to the extended half-life, FIX activity levels are above the target value of 1% for longer periods using similar doses compared with the standard” half-life (SHL)-FIX concentrates [12]
Summary
Hemophilia B is an X-linked congenital bleeding disorder, caused by over 2100 different mutations in the factor IX (FIX) gene resulting in a factor IX deficiency. Since 2016, three FIX concentrates with an extended half-life (EHL) have been approved by the European Medicines Agency: PEGylated FIX (N9-GP, Refixia®), FIX fused to the neonatal Fc receptor (rFIXFc, Alprolix®), and FIX fused with human albumin (rFIX-FP, Idelvion®) [6,7,8]. These EHL-FIX concentrates are produced using recombinant-DNA techniques and have been modified to reduce the rate of elimination and, extend half-life up to fourfold [9]. Frequency of FIX peak levels will decrease, with a potential increase of bleeding [13]
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