Population Pharmacokinetics of Intra-articular and Intravenous Administration of Tranexamic Acid in Patients Undergoing Total Knee Replacement

Background Tranexamic acid (TXA), an antifibrinolytic drug, is usually administered intravenously; however, intra-articular administration has recently been proven to be as effective as intravenous administration. Limited information regarding the pharmacokinetics (PK) of TXA after intra-articular administration has been reported. Aims The aim of this study was to develop a population PK model of TXA administered as a single intra-articular dose and as two intravenous doses, and to study the sources of interindividual variability (IIV) in the PK processes of TXA. The developed model was used to simulate PK profiles of TXA at different dosage regimens and in patients with renal impairment. Methods Patients who underwent primary unilateral total knee replacement (TKR) received 1 g/10 mL (concentration of 100 mg/mL) of TXA applied directly to the surgical field before wound closure, or 2 g (two doses of 1 g) of intravenous TXA. A population PK model was developed using a nonlinear mixed-effects approach and sources of IIV, such as sex, age, body weight, height, body mass index (BMI), preoperative haemoglobin, preoperative haematocrit, and creatinine clearance. Results Twenty-four patients were included, 12 in each group. Twenty patients were female, mean age (standard deviation) was 73.7 years (5.6). The disposition of TXA was best described as a two-compartment model with clearance dependent on creatinine clearance. Bootstrap results indicated that the model was stable and robust. The estimated bioavailability for intra-articular administration was 81%. Simulations indicated that 100% of patients would have plasma concentrations associated with partial fibrinolysis at 8 h post-administration with the dosages and routes of administration used in the present study. Intra-articular administration would produce complete inhibition of fibrinolysis in only 12% of patients compared with 72.5% with intravenous administration. No adverse events were reported. Conclusions This population PK model demonstrated that a single dose of high-concentration, low-volume intra-articular TXA can achieve antifibrinolytic plasma concentrations of the drug for 8 h, providing both local and systemic effects in patients undergoing TKR. TXA administration to the surgical field could be an alternative to the intravenous; route for patients undergoing TKR; however, clinical studies are needed to assess the toxic local effects of TXA.