Fixed Versus Variable Dosing of 4-factor Prothrombin Complex Concentrate for Emergent Warfarin Reversal (kcentra)

Warfarin is a common oral anticoagulant utilized in the United States for the treatment and prevention of thromboembolic events and conditions. Although effective, the major complication associated with warfarin is the risk of major bleeding events. Incidence of major bleeding events in long-term warfarin users is 1.5% to 5.2% per year, with mortality exceeding 13%. Among patients with an intracranial bleed, the mortality rate increases to 46%-55%. In these situations, it is imperative to reverse the pharmacologic effects of warfarin quickly in order to minimize bleeding and reduce the risk of death. Warfarin inhibits formation of vitamin K-dependent clotting factors II, VII, IX, X, and proteins C and S. An international normalized ratio (INR) is a commonly utilized laboratory test to measure the amount of anticoagulation provided by warfarin and is monitored throughout therapy. The INR is a standardized ratio utilizing prothrombin time to prevent variation between institutional laboratories. Prothrombin time is defined as the time required for plasma to clot after addition of clotting factor. A normal INR in a healthy adult can range from 0.8-1.2. The majority of patients on chronic warfarin therapy will have a target INR of 2-3.

The optimal dose of 4FPCC is currently unknown despite multiple studies evaluating different dosing regimens. The FDA-approved dosing is 25 to 50 IU factor IX per kilogram of body weight, depending on INR. It is dosed to a maximum of 100 kilograms of body weight. The FDA-approved variable dosing algorithm is as follows: initial INR 2-3.9: 25 IU/kg (maximum dose 2500 IU), initial INR 4-6: 35 IU/kg (maximum dose 3500 IU), and initial INR >6: 50 IU/kg (maximum dose 5000 IU). Exact doses of 4FPCC administered may vary slightly from the calculated doses as the amount of 4FPCC differs based on the vials utilized.

By incorporating a fixed dose of 1500 IU, presenting INR and body weight may not need to be determined prior to administration. This may allow for early administration and prevent delay for warfarin reversal in patients with emergent bleeding. This research may determine whether a fixed dose is effective for reversing warfarin to a target INR less than 1.5 compared to FDA-approved variable dosing. In addition, the lower fixed-dose will significantly reduce costs to the institution.

Hypothesis: A fixed dose of 4FPCC will be comparable to FDA-approved variable dosing for reversal of warfarin-induced anticoagulation (defined as an international normalized ratio [INR] ≤ 1.5) in patients with an INR ≥2 experiencing an emergent bleed or requiring emergent surgery.