A next generation FVIII mimetic bispecific antibody, Mim8, the impact on non-factor VIII related haemostasis assays.

INTRODUCTION AND AIMS: Mim8 is a next generation bispecific antibody developed for the treatment of haemophilia A (HA). Mim8 has an increased potency compared to first generation molecules. The impact on Mim8 on non-FVIII measuring haemostasis assays was assessed in plasma containing Mim8. METHODS: Congenital severe HA plasma was spiked with increasing concentrations of Mim8 (0-20 µg/mL). 28 routine and specialist haemostasis assays were used to measure activities. These included tests for prothrombin time (PT), fibrinogen, thrombin, D-dimer, anti-Xa, heparin induced thrombocytopenia (HIT), clotting factors II-XII, factor XIII, von Willebrand factor (VWF), thrombophilia and DRVVT. RESULTS AND CONCLUSIONS: Less than 10 % difference was calculated between plasma without Mim8 and plasma spiked to 15 µg/mL Mim8 in all assays except thrombin time (-10.5%), APTT-based factor IX, XI and XII, Werfen VWF:RCo (10.6%) and Siemens LA1 (-26.4%) and LA2 (-16.9%). At the expected therapeutic steady state levels of Mim8 (5-8 µg/mL), less than 10% difference was calculated for thrombin time and Werfen VWF:RCo. APTT-based assays of FIX, XI and XII are significantly elevated in the presence of Mim8 and should not be performed. A chromogenic FIX assay could be used to accurately measure FIX activity in the presence of Mim8. There was some interference in the DRVVT method we used so local assessment of other DRVVT methods is advised. Differences in all other tests would not be predicted to affect patient management.

The effect of a next generation factor VIII mimetic bispecific antibody (Mim8) on assays of factor VIII activity and thrombin generation.

BACKGROUND: Mim8 is a next generation bispecific antibody developed for the prophylactic treatment of hemophilia A. The sensitivity of activated plasma thromboplastin time (APTT), assays measuring factor VIII activity (FVIII:C) and thrombin generation to plasma containing Mim8 was assessed. METHODS: Congenital severe hemophilia A plasma was spiked with Mim8 at 0 µg/mL to 20 µg/mL. APTT was measured with 4 reagents, one-stage FVIII with 9 reagents, and chromogenic FVIII with 6 assays. Thrombin generation was assessed in a low tissue factor system. RESULTS: At 1-µg/mL Mim8, the APTT was shortened to within normal limits and one-stage FVIII:C was >1.00 IU/mL with all APTT reagents. Modified one-stage assays calibrated with Mim8 reference material calibrated recovered within 20% of the target Mim8 concentration with most APTT reagents. Factor VIII:C of bovine only chromogenic assays was <0.04 IU/mL at all Mim8 concentrations. Factor VIII:C of human only chromogenic assay was >4.00 IU/mL at 20-µg/mL Mim8. Factor VIII:C of hybrid bovine FX, human FIXa chromogenic assays ranged from 0.076 to >3.00 IU/mL at 20-µg/mL Mim8. Normal thrombin generation was restored at 5-µg/mL Mim8. CONCLUSIONS: APTT-based assays are sensitive to Mim8 and should not be performed in the presence of the drug. Chromogenic assays containing human proteins or hybrid human/bovine proteins demonstrated variable sensitivity to Mim8. Bovine only chromogenic assays were largely insensitive to the presence of Mim8. Thrombin generation normalized at increased Mim8 concentrations. Modified one-stage and chromogenic assays could be used to quantify the Mim8 concentration in plasma.