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Venous Thromboembolism Prophylaxis in Orthopedic Surgery

Venous Thromboembolism Prophylaxis in Orthopedic Surgery. Prepared for: Agency for Healthcare Research and Quality (AHRQ) www.ahrq.gov. Outline of This Presentation. The comparative effectiveness review (CER) process Overview of venous thromboembolism (VTE) and orthopedic surgery

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Venous Thromboembolism Prophylaxis in Orthopedic Surgery

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  1. Venous Thromboembolism Prophylaxis in Orthopedic Surgery Prepared for: Agency for Healthcare Research and Quality (AHRQ) www.ahrq.gov

  2. Outline of This Presentation • The comparative effectiveness review (CER) process • Overview of venous thromboembolism (VTE) and orthopedic surgery • VTE prophylaxis • Results from the CER • Summary of conclusions • Gaps in knowledge • What to discuss with your patients

  3. Agency for Healthcare Research and Quality (AHRQ) Comparative Effectiveness Review (CER) Development • Topics are nominated through a public process, which includes submissions from health care professionals, professional organizations, the private sector, policymakers, the public, and others. • A systematic review of all relevant clinical studies is conducted by independent researchers, funded by AHRQ, to synthesize the evidence in a report summarizing what is known and not known about the select clinical issue. The research questions and the results of the report are subject to expert input, peer review, and public comment. • The results of these reviews are summarized into Clinician and Consumer Research Summaries for use in decisionmaking and in discussions with patients. The research reviews and the full report are available at www.effectivehealthcare.ahrq.gov/thrombo.cfm. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  4. Rating the Strength of Evidence From the Comparative Effectiveness Review • The strength of evidence was classified into four broad categories: AHRQ. Methods Guide for Effectiveness and Comparative Effectiveness Reviews. April 2012. Available at www.effectivehealthcare.ahrq.gov/ehc/ products/60/318/MethodsGuide_Prepublication-Draft_20120409.pdf. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  5. Thromboprophylaxis in Major Orthopedic Surgery • Major orthopedic surgery including total hip replacement (THR), total knee replacement (TKR), and hip fracture surgery carries a risk for venous thromboembolism (VTE). • Without prophylaxis, historic data suggest deep vein thrombosis (DVT) occurs in 40–60 percent of cases in the 7–14 days following surgery. • With routine use of thromboprophylaxis, symptomatic VTE in patients within 3 months of surgery is approximately 1.3–10 percent. • Prophylactic strategies may decrease the risk of VTE, DVT, and pulmonary embolism. • The main limitation of pharmacological VTE prophylaxis is the risk of bleeding, which historically occurs in 1–3 percent of THR and TKR surgeries. American Academy of Orthopaedic Surgeons. Guideline on preventing venous thromboembolic disease in patients undergoing elective hip and knee arthroplasty. Available at www.aaos.org/research/guidelines/VTE/VTE_guideline.asp.

  6. Preventing Venous Thromboembolic Events in Major Orthopedic Surgery • A variety of strategies to prevent venous thromboembolism are available: • Pharmacological • Oral antiplatelet agents • Injectable low-molecular-weight heparins • Injectable unfractionated heparin • Injectable or oral factor Xa inhibitors • Injectable or oral direct thrombin inhibitors • Oral vitamin K antagonists • Mechanical modalities • Graduated compression • Intermittent pneumatic compression • Venous foot pump • Combinations of these Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  7. Establishing the Need for a Systematic Review of VTE Prophylaxis in Orthopedic Surgery • The magnitude of benefit and harms in contemporary practice and evaluation of pharmacological agents or devices available within the United States amongst the orthopedic surgery population is not well known. • Additionally, the influence of these factors in contemporary practice needs to be systematically evaluated: • The impact of duration of prophylaxis on outcomes • Whether dual prophylactic therapy is superior to single-modality therapy • The comparative effectiveness of different pharmacological or mechanical modalities • The risks of VTE, PE, and DVT and the causal link between DVT and PE. American Academy of Orthopaedic Surgeons. Guideline on preventing venous thromboembolic disease in patients undergoing elective hip and knee arthroplasty. Available at www.aaos.org/research/guidelines/VTE/VTE_guideline.asp.

  8. Baseline Postoperative Risk of Venous Thromboembolism and Bleeding Outcomes in Contemporary Practice Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  9. Baseline Postoperative Risks of VTE Outcomes in the Absence of Pharmacological Prophylaxis • Most of the literature evaluated total hip and total knee replacement surgeries with very little evaluation of hip fracture surgery. The baseline risk of venous thromboembolism and bleeding outcomes in the absence of pharmacological prophylaxis are as follows: Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  10. Comparative Effectiveness of Pharmacological or Mechanical Thromboprophylaxis Versus No Thromboprophylaxis Pharmacological versus no pharmacological prophylaxis Mechanical versus no thromboprophylaxis Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  11. Comparative Effectiveness of Pharmacological Prophylaxis Versus No Pharmacological Prophylaxis Abbreviations: 95% CI = 95-percent confidence interval; NNH = number needed to harm (the calculated range); NNT = number needed to treat (the calculated range; NR = not reported or insufficient evidence to permit conclusions; OR = odds ratio; RR = relative risk Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  12. Comparative Effectiveness of Pharmacological Prophylaxis Versus No Pharmacological Prophylaxis: Adverse Effects Abbreviations: 95% CI = 95-percent confidence interval; NNH = number needed to harm; NNT = number needed to treat; OR = odds ratio; RR = relative risk Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  13. Comparative Effectiveness of Mechanical Prophylaxis Versus No Thromboprophylaxis • Mechanical prophylaxis significantly decreased deep vein thrombosis (DVT; results from one randomized controlled trial; strength of evidence not rated). • The risk for proximal or distal DVT was not significantly different (results from one randomized controlled trial; strength of evidence not rated). • Data are not available to evaluate the comparative effect of mechanical prophylaxis versus no prophylaxis on other outcomes. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  14. Comparative Effectiveness of Pharmacological and Mechanical Prophylaxis Agents Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  15. Comparative Effectiveness of Pharmacological Prophylaxis Agents: LMWH Versus UFH Abbreviations: 95% CI = 95-percent confidence interval; DVT = deep vein thrombosis; LMWH = low-molecular-weight heparin; major bleeding = for example, bleeding leading to greater transfusion requirements and/or reoperation; minor bleeding = for example, surgical site bleeding, bleeding leading to infection, or bleeding leading to transfusion but not reoperation; NNH = number needed to harm (the calculated range); NNT = number needed to treat (the calculated range); NR = not reported or insufficient evidence to permit conclusions; OR = odds ratio; PE = pulmonary embolism; RR = relative risk; SOE = strength of evidence rating; UFH = unfractionated heparin; VTE = venous thromboembolism Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  16. Comparative Effectiveness of Pharmacological Prophylaxis Agents: Enoxaparin Versus Fondaparinux Abbreviations: 95% CI = 95-percent confidence interval; DVT = deep vein thrombosis; major bleeding = for example, bleeding leading to greater transfusion requirements and/or reoperation; minor bleeding = for example, surgical site bleeding, bleeding leading to infection, or bleeding leading to transfusion but not reoperation; NNH = number needed to harm (the calculated range); NNT = number needed to treat (the calculated range); OR = odds ratio; PE = pulmonary embolism; RR = relative risk; SOE = strength of evidence rating; VTE = venous thromboembolism Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  17. Comparative Effectiveness of Pharmacological Prophylaxis Agents: LMWH Versus Warfarin Abbreviations: 95% CI = 95-percent confidence interval; DVT = deep vein thrombosis; LMWH = low-molecular-weight heparin; major bleeding = for example, bleeding leading to greater transfusion requirements and/or reoperation; minor bleeding = for example, surgical site bleeding, bleeding leading to infection, or bleeding leading to transfusion but not reoperation; NNH = number needed to harm (the calculated range); NNT = number needed to treat (the calculated range); OR = odds ratio; PE = pulmonary embolism; RR = relative risk; SOE = strength of evidence rating; VTE = venous thromboembolism Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  18. Comparative Effectiveness of Pharmacological Prophylaxis Agents: UFH Versus Desirudin Abbreviations: 95% CI = 95-percent confidence interval; DVT = deep vein thrombosis; major bleeding = for example, bleeding leading to greater transfusion requirements and/or reoperation; minor bleeding = for example, surgical site bleeding, bleeding leading to infection, or bleeding leading to transfusion but not reoperation; NNH = number needed to harm (the calculated range); NR = not reported or insufficient evidence to permit conclusions; OR = odds ratio; PE = pulmonary embolism; RR = relative risk; SOE = strength of evidence rating; UFH = unfractionated heparin; VTE = venous thromboembolism Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  19. Comparative Effectiveness of Pharmacological and Mechanical Prophylaxis • Warfarin decreased the risk of proximal deep vein thrombosis (DVT) by 63 percent when compared with mechanical prophylaxis. • Strength of Evidence = Moderate • Patients on aspirin had higher rates of DVT when compared with those using only mechanical prophylaxis. • Strength of Evidence = Moderate • Pharmacological plus mechanical prophylaxis reduced the risk of DVT by 52 percent when compared with pharmacological prophylaxis alone. • Strength of Evidence = Moderate Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  20. Comparative Effectiveness of Prolonged (≥28 Days) Versus Standard (7–10 Days) Pharmacological Prophylaxis Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  21. Prolonged (≥28 Days) Versus Standard (7–10 Days) Pharmacological Prophylaxis: Clinical Outcomes Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  22. Prolonged (≥28 Days) Versus Standard (7–10 Days) Pharmacological Prophylaxis: Adverse Effects Abbreviations: 95% CI = 95-percent confidence interval; major bleeding = for example, bleeding leading to greater transfusion requirements and/or reoperation; minor bleeding = for example, surgical site bleeding, bleeding leading to infection, or bleeding leading to transfusion but not reoperation; NNH = number needed to harm (the calculated range); NNT = number needed to treat (the calculated range); OR = odds ratio Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  23. Patient or Surgical Characteristics That May Affect the Risk ofVenous Thromboembolism Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  24. Characteristics That May Affect Risk of Venous Thromboembolism: Results • Patients who receive general anesthesia may have a higher risk of deep vein thrombosis (DVT) than those who receive regional anesthesia; however, there were no differences in proximal or symptomatic DVT. • Strength of Evidence = Low • No difference in risk of DVT or proximal DVT was found among patients receiving cemented versus noncemented arthroplasty. • Strength of Evidence = Low • Observational data suggest that patients with congestive heart failure were at an increased risk for symptomatic, objectively confirmed venous thromboembolism when compared with those without it. • Strength of Evidence = Moderate Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  25. Summary of the RECORD Trials • The oral direct factor Xa inhibitor, rivaroxaban, was approved by the FDA for preventing DVT, which may be associated with PE, in patients undergoing THR or TKR surgery. • This decision was based, in part, on the findings of four phase III trials known as the Regulation of Coagulation in Orthopedic Surgery to Prevent Deep Venous Thrombosis and Pulmonary Embolism (RECORD) trials: RECORD 1, RECORD 2, RECORD 3, and RECORD 4. • They compared various regimens of rivaroxaban and enoxaparin in THR or TKR surgery. • The primary efficacy outcome was composite DVT, nonfatal PE, or all-cause mortality. • The primary safety outcome was major bleeding. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  26. Summary of Outcomes From the RECORD Trials • RECORD 1 and 2 trials (THR): • There was reduced risk of the primary efficacy outcome with prolonged rivaroxaban (started 6–8 hours postoperatively, for 35 ± 4 days) when compared with enoxaparin given as either prolonged (started evening before surgery, for 36 ± 4 days) or standard-duration (started evening before surgery, for 13 ± 2 days) prophylaxis. • RECORD 1: The primary efficacy outcome occurred in 1.1 percent of patients given rivaroxaban and 3.7 percent of patients given enoxaparin (ARR = 2.6%; 95% CI, 1.5 to 3.7; P < 0.001). • RECORD 2: The primary efficacy outcome occurred in 2.0 percent of patients given rivaroxaban and 9.3 percent of patients given enoxaparin (ARR = 7.3%; 95% CI, 5.2 to 9.4; P < 0.0001). • RECORD 3 and 4 trials (TKR): • Rivaroxaban decreased the risk of the primary efficacy outcome when compared with enoxaparin. • RECORD 3: The primary efficacy outcome occurred in 9.6 percent of patients given rivaroxaban and 18.9 percent of patients given enoxaparin (ARR = 9.2%; 95% CI, 5.9 to 12.4; P < 0.001). • RECORD 4: The primary efficacy outcome occurred in 6.9 percent of patients given rivaroxaban and in 10.1 percent of patients given enoxaparin (ARR = 3.19%, 95% CI, 0.71 to 5.67; P = 0.0118). • In all four trials, there were no significant differences in the risk for the primary safety outcome of major bleeding or for the risks of mortality or minor bleeding outcomes. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  27. Summary of Conclusions • Estimated native (i.e., without pharmacological prophylaxis) incidence of DVT after THR and TKR surgery was 39 percent and 46 percent, respectively. • Pharmacological prophylaxis decreases the risk of DVT with some increased risk of minor bleeding when compared with no pharmacological prophylaxis. • LMWH may decrease the risk for DVT when compared with warfarin at the expense of increases in major and minor bleeding. • LMWH provides greater protection against DVT and PE when compared with unfractionated heparin while reducing the risk of bleeding and heparin-induced thrombocytopenia. • LMWH was not as effective in protecting against the risk of DVT when compared with an injectable factor Xa inhibitor, although the odds of bleeding were reduced. • Prolonged prophylaxis decreased the risk of thromboembolism at the risk of increased minor bleeding when compared with standard-duration prophylaxis. Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  28. Gaps in Knowledge • Inadequate data did not permit conclusions about the comparative benefits and adverse effects associated with VTE prophylaxis in non–joint–replacement surgery. • More information is needed on the following aspects of VTE prophylaxis in the setting of major orthopedic surgery: • Clinically important outcomes including symptomatic venous thromboembolism, post-thrombotic syndrome, clinically relevant bleeding, prosthetic infection, reoperation, and mortality and whether intermediate outcomes predict health outcomes • Surgical, postsurgical, or patient factors that predict outcomes • The optimal followup period needed to determine longer term outcomes • Optimal duration of thromboprophylaxis • The role of combined pharmacological and mechanical prophylaxis Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  29. What To Discuss With Your Patients • General background information on the risk of thromboembolic disease • That thromboembolic disease is a major risk after joint–replacement surgery and why some form of prophylactic treatment is indicated • Options for prophylaxis • Bleeding as the major risk of pharmacological prophylaxis Sobieraj DM, Coleman CI, Tongbram V, et al. Comparative Effectiveness Review No. 49. Available at www.effectivehealthcare.ahrq.gov/thrombo.cfm.

  30. Resource for Patients • Preventing Blood Clots After Hip or Knee Replacement Surgery or Surgery for a Broken Hip, A Review of the Research for Adults is a free resource for patients. It can help patients talk with their health care professionals about the many options for treatment. It provides information about: • Pharmacological options for preventing venous thromboembolism (VTE) • Nonpharmacological options for preventing VTE • Current evidence of effectiveness and harms associated with VTE-prevention methods • Questions for patients to ask their doctor

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