There is currently limited information available on the benefits and risks of extended thromboprophylaxis after hip fracture surgery. SAVE-HIP3 was a randomised, double-blind study conducted to evaluate the efficacy and safety of extended thromboprophylaxis with the ultra-low molecular-weight heparin semuloparin compared with placebo in patients undergoing hip fracture surgery. After a seven- to ten-day open-label run-in phase with semuloparin (20 mg once daily subcutaneously, initiated post-operatively), patients were randomised to once-daily semuloparin (20 mg subcutaneously) or placebo for 19 to 23 additional days. The primary efficacy endpoint was a composite of any venous thromboembolism (VTE; any deep-vein thrombosis and non-fatal pulmonary embolism) or all-cause death until day 24 of the double-blind period. Safety parameters included major and clinically relevant non-major bleeding, laboratory data, and treatment-emergent adverse events (TEAEs). Extended thromboprophylaxis with semuloparin demonstrated a relative risk reduction of 79% in the rate of any VTE or all-cause death compared with placebo (3.9% vs 18.6%, respectively; odds ratio 0.18 (95% confidence interval 0.07 to 0.45), p < 0.001). Two patients in the semuloparin group and none in the placebo group experienced clinically relevant bleeding. TEAE rates were similar in both groups. In conclusion, the SAVE-HIP3 study results demonstrate that patients undergoing hip fracture surgery benefit from extended thromboprophylaxis.

Cite this article: Bone Joint J 2013;95-B:459–66.

Introduction: Venous thromboembolism (VTE) is a common, potentially fatal complication of major orthopaedic surgery. Although pharmacological thromboprophylaxis is recommended following total hip replacement (THR) for a minimum of 10 days, and up to 35 days, its extended use is not universally accepted – an effective, safe and convenient, oral anticoagulant would improve implementation of these recommendations. This trial compared short-term thromboprophylaxis using enoxaparin with extended thromboprophylaxis using rivaroxaban – a once-daily, oral, direct Factor Xa inhibitor – after THR, in the largest, prospective, randomized clinical trial conducted to date for the evaluation of the risk/benefit of extended prophylaxis.

Method: In this global, double-blind trial, 2509 patients undergoing THR were randomized to receive either subcutaneous enoxaparin 40 mg once daily (od), started the evening before surgery and continued for 10–14 days, followed by placebo until day 35±4 (short-term prophylaxis), or oral rivaroxaban 10 mg od, started 6–8 hours after surgery and continuing for 35±4 days (extended prophylaxis). Mandatory, bilateral venography was conducted on day 36±4. The primary efficacy endpoint was the composite of any deep vein thrombosis (DVT), non-fatal pulmonary embolism (PE), and all-cause mortality. The main secondary efficacy endpoint was major VTE (the composite of proximal DVT, non-fatal PE, and VTE-related death). Safety endpoints included the incidence of major and non-major bleeding.

Results: The incidence of the primary efficacy endpoint was significantly reduced with extended thromboprophylaxis with rivaroxaban compared with short-term enoxaparin (2.0% and 9.3%, respectively; p< 0.001; relative risk reduction [RRR] 79%), as was major VTE (0.6% versus 5.1%; p< 0.001; RRR 88%). The incidence of major bleeding was the same in both groups (0.1%). Non-major bleeding was reported in 6.5% of patients who received extended thromboprophylaxis with rivaroxaban and in 5.5% of those treated with short-term enoxaparin.

Conclusion: Extended duration thromboprophylaxis with rivaroxaban is both significantly more effective and adds no disadvantage, in terms of bleeding, when compared with short-term prophylaxis. These data suggest that extended thromboprophylaxis provides substantial benefits to patients undergoing THR and rivaroxaban provides a safe and effective option for this strategy.

Purpose: Venous thromboembolism (VTE) is a common, potentially fatal complication of major orthopaedic surgery. Pharmacologic thromboprophylaxis is recommended following total hip replacement (THR) for a minimum of 10 days, and up to 35 days. However, its extended use is not accepted universally – an effective, safe and convenient, oral anticoagulant would improve implementation of these recommendations. This study was conducted to compare short-term thromboprophylaxis with enoxaparin and extended thromboprophylaxis with the novel, oral, direct Factor Xa inhibitor rivaroxaban after THR. This was the largest, prospective, randomized clinical trial conducted to date for the evaluation of the risk/benefit of extended duration thromboprophylaxis.

Method: In this global, double-blind trial, 2509 patients undergoing THR were randomized to receive either subcutaneous enoxaparin 40 mg once daily (od), beginning the evening before surgery and continued for 10–14 days, followed by placebo until day 35±4 (short-term prophylaxis); or oral rivaroxaban 10 mg od beginning 6–8 hours after surgery and continuing for 35±4 days (extended prophylaxis). Mandatory, bilateral venography was conducted on day 36±4. The primary efficacy endpoint was the composite of any deep vein thrombosis (DVT), non-fatal pulmonary embolism (PE), and all-cause mortality. The main secondary efficacy endpoint was major VTE; the composite of proximal DVT, non-fatal PE, and VTE-related death. Safety endpoints included the incidence of major and non-major bleeding.

Results: Extended thromboprophylaxis with rivaroxaban significantly reduced the incidence of both the primary efficacy endpoint (2.0% versus 9.3%, respectively; p< 0.001; relative risk reduction [RRR] 79%) and major VTE (0.6% versus 5.1%, respectively; p< 0.001; RRR 88%), compared with short-term enoxaparin. The incidence of major bleeding was 0.1% in patients receiving either extended or short-term thromboprophylaxis. Non-major bleeding was reported in 6.5% of patients receiving extended prophylaxis with rivaroxaban and 5.5% of those receiving short-term enoxaparin.

Conclusion: Extended duration thromboprophylaxis with rivaroxaban was significantly more effective than short-term enoxaparin for the prevention of VTE in patients undergoing THR. Both regimens were associated with a similar incidence of bleeding. Extended thromboprophylaxis provides substantial benefits for patients undergoing THR and rivaroxaban provides a safe and effective option for this strategy.

Aims: To investigate the efficacy and safety of a new dosage regimen of the oral direct thrombin inhibitor ximelagatran, and its subcutaneous (sc) form melagatran, started in close proximity to surgery. Methods: In a randomised, double-blind, parallel-group study, duration 8–11 days, patients undergoing total hip or knee replacement (THR, n= 1856; TKR, n= 908) received either sc melagatran 2 mg immediately before surgery followed by sc 3 mg in the evening after surgery, and then by oral ximelagatran 24 mg bid as a fixed dose (the ximelagatran group), or sc enoxaparin 40 mg od, started the evening before surgery. Bilateral venography was performed on the final day of treatment. Results: The rate of proximal deep vein thrombosis plus pulmonary embolism was 2.3% in the ximelagatran group vs. 6.3% in the enoxaparin group (p< 0.000002; RRR 63.2%). The total rates of venous thromboembolism (VTE) were 20.3% vs. 26.6%, respectively (p< 0.0003; RRR 23.6%). Cases with symptomatic VTE were rare: 8 in the ximelagatran group and 12 in the enoxaparin group. Bleeding events were more common in the ximelagatran group compared with the enoxaparin group (3.3% vs. 1.2%) as were the transfusion rates (66.8% vs. 61.7%). Importantly, there were no differences in fatal bleeding, critical organ bleeding or bleeding requiring re-operation. Conclusion: Pre-operatively initiated sc melagatran followed by oral ximelagatran was superior in efficacy to enoxaparin in preventing VTE in patients undergoing THR or TKR.

Ximelagatran is an oral direct thrombin inhibitor intended for the prophylaxis and treatment of thrombo-embolic complications. Purpose: The efficacy and safety of ximelagatran, and its subcutaneous (sc) form melagatran, were evaluated in patients undergoing total hip or knee replacement (THR, TKR). Study 1 was a randomised, double-blind, controlled, dose–response study in which patients received 2-6 doses of sc melagatran (1, 1.5, 2.25, or 3 mg bid) followed by oral ximelagatran (8, 12, 18, or 24 mg bid), or sc dalteparin (5000 IU od). Melagatran treatment was initiated immediately before surgery. Study 2 was a randomized, double-blind, controlled study in which patients received 1–5 doses of sc melagatran (3 mg bid) initiated 4–12 h after surgery followed by oral ximelagatran (24 mg bid), or sc enoxaparin (40 mg od). In both studies, low-molecular-weight heparin (LMWH) was started the evening before surgery, and all treatment regimens were continued for 8–11 days. Bilateral venography was performed on the final day of treatment.

Results: In Study 1, 1876 patients underwent THR (n=1270) or TKR (n=606). A significant dose-dependent reduction in venous thromboembolism (VTE) was seen with melagatran + ximelagatran for both THR (P< 0.0001) and TKR (P=0.0014). The rate of VTE was significantly lower with the highest dose of melagatran + ximelagatran (15.1%) when compared with dalteparin (28.2%) (P< 0.0001). In Study 2, 2788 patients underwent THR (n=1923) or TKR (n=865). The VTE rate was 31% in the melagatran + ximelagatran group and 27% in the enoxaparin group (P=0.053). Total bleeding volume was not significantly different between treatment groups. Conclusion: Fixed-dose sc melagatran followed by oral ximelagatran are efficacious and well tolerated for the prophylaxis of VTE following THR or TKR.