Purpose: Tranexamic acid (TXA) is widely used as an antifibrinolytic drug. However, studies to determine the optimal blood concentration of TXA have produced inconsistent results. During cardiac surgery, cardiopulmonary bypass (CPB) has serious effects on drug distribution, elimination, and plasma concentration. Therefore, we aimed to establish a population pharmacokinetics model of TXA in patients undergoing cardiac surgery with CPB that considers renal function as a covariate, thereby facilitating personalized treatment.
Methods: In total, 453 TXA plasma samples were prospectively collected from 77 patients who underwent cardiac surgery with CPB. Plasma concentrations were determined by ultra-performance liquid chromatography-tandem mass spectrometry. The population pharmacokinetic model of TXA was analyzed using nonlinear mixed-effects modeling.
Results: The two-compartment-based model with combined errors was determined as the best. The final model included the effect of bodyweight and CLcr may be summarized as V1 (L) = 12.77 × (bodyweight / 61.4)0.911, V2 (L) = 6.857, CL1 (L/h) = 3.263 × [CLcr (L/h) / 61.0]0.752, CL2 (L/h) = 2.859.
Conclusion: Patients who undergo cardiac surgery with CPB may require an adjusted dose of TXA tailored to CPB due to lower CL1 and increased V1. Our TXA population pharmacokinetic model may be useful for developing individualized dosing designs for TXA in patients who undergo cardiac surgery with CPB.
Keywords: Cardiac surgery; Cardiopulmonary bypass; Population pharmacokinetic; Tranexamic acid.
© 2025. The Author(s).