Changes in coagulation potential over time after administration of recombinant activated factor VII in an emicizumab-treated hemophilia A patient with inhibitors.

We describe a 67-year-old patient with hemophilia A and inhibitors (PwHA-I) receiving emicizumab prophylaxis who underwent surgical treatment for pseudoaneurysm. He was treated with a bolus infusion of recombinant factor VIIa (rFVIIa; 79 µg/kg) immediately before surgery, and a second dose of rFVIIa after an initial treatment on day 1. A third rFVIIa bolus was infused 17 h after the second dose on day 2, and the treatment was continued every 24 h on day 3 and day 4. Treatment with rFVIIa was discontinued on day 4. No perioperative bleeding or thrombotic events were observed. Coagulation potentials at 8 h after rFVIIa administration determined by clot waveform analysis (CWA) and thrombin generation assay (TGA) were within near-normal ranges, and results at 17 h after rFVIIa administration showed coagulation function comparable to that in the patient without rFVIIa. Our experimental data suggest that the coagulation potential in FVIII-deficient plasma spiked with both 0.28 µg/mL (11.2 µg/kg) rFVIIa and emicizumab was equivalent to or greater than that spiked with 2.2 µg/mL (90 µg/kg) rFVIIa alone. Thus, administration of rFVIIa every 8 h may be feasible for managing perioperative treatment in emicizumab-treated PwHA-I.

Activated protein C resistance in the copresence of emicizumab and activated prothrombin complex concentrates.

Background: Venous thromboembolic events have been reported in persons with hemophilia A who received emicizumab and activated prothrombin complex concentrate (APCC) concomitantly, but the relevant mechanism(s) remains unclear. We speculated that activated protein C (APC) and antithrombin (AT) resistance might be associated with these adverse events. Objectives: To investigate APC and AT resistance in factor (F)VIII-deficient (FVIIIdef) plasma in the presence of emicizumab and APCC. Methods: In pooled normal plasma or FVIIIdef plasma samples mixed with emicizumab (50 µg/mL) and FVIII-bypassing agents, including recombinant FVIIa (2.2 µg/mL), APCC (1.3 IU/mL), or plasma-derived FVIIa/FX (1.5 µg/mL), the suppression effect of AT (0-2.4 µM) and APC (0-16 nM) was assessed by tissue factor-triggered thrombin generation assay. The APC effects in FVIIIdef plasma with the copresence of emicizumab, FII (1.3 µM), and/or FIXa (280 pM) were also examined. Results: The AT resistance in emicizumab and each bypassing agent was not observed. Moreover, APC dose-dependent suppression effect was observed in pooled normal plasma or FVIIIdef plasma mixed with emicizumab and recombinant FVIIa or plasma-derived FVIIa/FX. However, APC-catalyzed inactivation had little effect on thrombin generation assay potential in FVIIIdef plasma spiked with emicizumab and APCC. The addition of FIXa to emicizumab in FVIIIdef plasma could lead to partial APC resistance. Furthermore, FVIIIdef plasma spiked with emicizumab, FIXa, and FII was markedly resistant to APC-mediated inactivation. Conclusion: FII and FIXa in APCCs were key clotting factors for APC resistance in FVIIIdef plasma supplemented with emicizumab and APCCs. The APC resistance in persons with hemophilia A receiving emicizumab and APCC may contribute to venous thromboembolic events.