Rivaroxaban is a novel, oral, once-daily, direct Factor Xa inhibitor in advanced clinical development. RECORD1 was a multinational, randomized, double-blind, double-dummy, phase III study investigating the efficacy and safety of extended thromboprophylaxis with rivaroxaban compared with subcutaneous enoxaparin following THR. Patients (N=4541) were randomized to receive oral rivaroxaban 10 mg (6–8 hours after surgery and once daily thereafter) or subcutaneous enoxaparin 40 mg (administered the evening before surgery, 6–8 hours after surgery, and once daily thereafter) for 35±4 days. The primary efficacy outcome was the composite of deep vein thrombosis (DVT: symptomatic or detected by mandatory, bilateral venography if asymptomatic), non-fatal pulmonary embolism (PE), and all-cause mortality up to day 36±6. Major venous thromboembolism (VTE), the composite of any DVT, non-fatal PE and VTE-related death, was a secondary outcome. Safety endpoints included major and non-major bleeding while receiving study medication. Rivaroxaban significantly reduced the incidence of the primary efficacy outcome compared with enoxaparin (1.1% vs 3.7%, respectively; p<
0.001; relative risk reduction [RRR] 70%). Rivaroxaban also significantly reduced the incidence of major VTE compared with enoxaparin (0.2% vs 2.0%, respectively; p<
0.001; RRR 88%). There were no significant differences in the incidence of major bleeding (0.3% vs 0.1%; p=0.178) or non-major bleeding (5.8% vs 5.8%; p=1.000) between rivaroxaban and enoxaparin, respectively. There was no evidence of liver safety issues associated with rivaroxaban. Thromboprophylaxis with once-daily, oral rivaroxaban was significantly more effective than subcutaneous enoxaparin following THR without an increased risk of bleeding. This trial demonstrates the efficacy and safety of a fixed, unmonitored, once-daily dose of oral rivaroxaban for extended thromboprophylaxis after THR.
Venous thromboembolism (VTE) is a potentially fatal complication after total hip replacement (THR) and may be associated with a considerable economic burden. In many centres, thromboprophylaxis using a subcutaneous (sc) anticoagulant in patients undergoing THR is restricted to 14 days or less. Rivaroxaban is a once-daily, oral, direct Factor Xa inhibitor in advanced clinical development for thromboprophylaxis after major orthopaedic surgery; it does not require monitoring or dose adjustment. In a phase III study, RECORD2, oral rivaroxaban 10 mg, given once daily for 35±4 days, significantly reduced the incidence of the primary endpoint (deep vein thrombosis, pulmonary embolism and all-cause mortality), compared with 40 mg sc enoxaparin, given for 14 days (2.0% vs 9.3%, respectively; relative risk reduction 79%; p<
0.001). The incidence of bleeding was low and similar in both groups, despite extended thromboprophylaxis with rivaroxaban. This analysis demonstrates the economic impact of extended thromboprophylaxis with oral rivaroxaban. The effect of rivaroxaban on healthcare costs was based on the primary efficacy results, and the associated reduced administration and monitoring costs, and includes non-drug costs only. The cost of symptomatic VTE was taken from published sources in the US and the UK 2007 NICE Guidelines. It was assumed that nurses spent 3 mins/day administering enoxaparin and training patients to self-inject for outpatient use. Hospital duration was 5 days. In the UK, full blood counts should be taken every 3 days when receiving enoxaparin. The total US health-care resource cost was $192/patient for enoxaparin and $39 for rivaroxaban (excluding drug costs). This saving of $153 was driven by reduced hospital costs associated with fewer VTEs when using rivaroxaban. In the UK, the total healthcare cost/patient was £44 with enoxaparin and £2 with rivaroxaban – savings driven equally by reduced hospitalization and monitoring costs with rivaroxaban prophylaxis. The different cost savings in the US and UK are due to higher US hospital costs. The costs of post-thrombotic syndrome (PTS) were excluded in this analysis. PTS has an estimated 5-year rate of 21% after asymptomatic VTE and 30% after symptomatic VTE, at a total cost/patient of more than $11,000 in the US and £4000 in the UK. Given the reduction in all VTE events with rivaroxaban, there are potential further healthcare cost savings due to reduced PTS. The RECORD2 study showed that extended prophylaxis (35 days) with rivaroxaban was significantly more effective than short-term enoxaparin (14 days) for the prevention of VTE, and was not associated with an increased risk of bleeding. This analysis illustrates an additional benefit of once-daily, oral rivaroxaban in the reduction in healthcare costs related to administration and monitoring.
Rivaroxaban is an oral, direct Factor Xa inhibitor in clinical development for the prevention of VTE after major orthopaedic surgery. Data from three phase II trials of twice-daily (bid) rivaroxaban in patients undergoing elective, total hip or knee replacement were pooled to determine whether age, gender or weight affected the efficacy or safety of rivaroxaban, and thus whether dose adjustment would be necessary. Patients received 5–9 days of oral rivaroxaban (2.5–30 mg bid, post-operatively), or s.c. enoxaparin. A logistic regression model using total daily dose of rivaroxaban as a covariate, and adjusted for differences between dose groups with respect to study, age and gender, was used to estimate rates of the primary efficacy endpoint (DVT, PE or all-cause mortality; n=1380 intention-to-treat patients) and clinically relevant bleeding (major and non-major clinically relevant bleeding; safety population, n=1854). Rivaroxaban at total daily doses of 5–20 mg had similar efficacy and safety to enoxaparin. Overall, logistic regression showed a positive dose–response relationship with rivaroxaban for clinically relevant bleeding (p<
0.001), and a flat relationship for the primary efficacy endpoint (p=0.115). The risk of VTE increased with age – the efficacy endpoint was estimated to occur in 17.3–9.4%, 18.7–17.3% and 26.6–20.2% of patients aged <
60 yrs, 60–70 yrs and >
70 yrs receiving rivaroxaban (total daily dose 5–60 mg), respectively, in separate regression models. Age was also prognostic for clinically relevant bleeding with rates of 1.4–12.0% (<
60 yrs), 2.7–15.4% (60–70 yrs) and 5.7–15.4% (>
70 yrs). The rates are for a population distributed equally across the studies and genders. Incidences of the efficacy endpoint were higher in females (25.8–20.5%) than males (16.6–10.7%), while clinically relevant bleeding occurred more frequently in males (5.4–16.3%) than in females (1.7–11.6%), after adjustment for age. Weight was not prognostic for the efficacy endpoint or clinically relevant bleeding (p=0.87 and p=0.48, respectively, after adjustment for age, gender and study), nor did it modify the dose–response relationships with rivaroxaban. Incidences of the efficacy endpoint for a population of equal study and gender distribution and of mean patient age were 23.4–15.7% and 19.1–14.6% in patients weighing <
65 kg and ≥90 kg, respectively, with corresponding bleeding rates of 3.3–16.5% and 3.2–17.5%. This analysis indicates that age, gender or weight did not affect the dose–response relationships (or lack thereof) between rivaroxaban and the primary efficacy endpoint or clinically relevant bleeding. As expected, age was prognostic for VTE and bleeding. These findings suggest that rivaroxaban may not require dose adjustment for age, gender or weight in orthopaedic patients.
Routine prophylaxis is recommended to prevent venous thromboembolism (VTE) – manifesting as deep vein thrombosis (DVT) and/or pulmonary embolism (PE) – in patients undergoing major orthopaedic surgery. Rivaroxaban (BAY 59-7939) is a novel, oral, direct Factor Xa inhibitor in development for the prevention and treatment of VTE. The efficacy and safety of 5–9 days’ prophylaxis with rivaroxaban were investigated in three randomized, double-blind, phase IIb trials in patients undergoing elective, total hip or knee replacement (THR or TKR), relative to subcutaneous enoxaparin. Two trials (one in patients undergoing THR, N=722; and one in patients undergoing TKR, N=621) investigated twice-daily (bid) rivaroxaban (at total daily doses of 5–60 mg); the third (in patients undergoing THR, N=873) investigated once-daily (od) rivaroxaban (at doses of 5, 10, 20, 30 or 40 mg od). Rivaroxaban – at all doses tested – had similar efficacy to enoxaparin in the bid trials. This promising finding was strengthened by the od trial, in which the observed incidences of the primary efficacy endpoint (DVT, non-fatal PE or all-cause mortality) were lower in patients receiving rivaroxaban 5, 10, 20, 30 and 40 mg od (14.9%, 10.6%, 8.5%, 13.5% and 6.4%, respectively) than enoxaparin (25.2%). Although there was no significant dose–response relationship between rivaroxaban and the primary efficacy endpoint in these trials, there was with major VTE (proximal DVT, PE or VTE-related death; p=0.0072) in the od trial (incidences were 8.5%, 2.7%, 0.9%, 1.9% and 1.1% with rivaroxaban 5, 10, 20, 30 and 40 mg od, respectively, vs 2.8% with enoxaparin). Significant dose–response relationships between rivaroxaban and major bleeding were observed in all three trials. In the bid trials, major bleeding rates with rivaroxaban were similar to those with enoxaparin at total daily doses of 5–20 mg. In the od trial, major bleeding occurred in 2.3%, 0.7%, 4.3%, 4.9% and 5.1% of patients receiving rivaroxaban 5, 10, 20, 30 and 40 mg od, respectively, and in 1.9% of those receiving enoxaparin. Rivaroxaban was generally well tolerated in the bid and od trials, and the incidence of nausea and vomiting with early post-operative oral rivaroxaban administration was low for all doses tested. The bid trials suggest that oral rivaroxaban at total daily doses of 5–20 mg may be a safe and effective alternative to enoxaparin for the prevention of VTE after major orthopaedic surgery. The od trial suggests that the more-convenient od regimen is feasible and that 10 mg od, a dose within the range identified by the bid trials, should be investigated further. As a result, oral rivaroxaban 10 mg od is currently being investigated in four phase III trials for the prevention of VTE after major orthopaedic surgery (the RECORD trials).