Original Research

Using Aminocaproic Acid to Reduce Blood Loss After Primary Unilateral Total Knee Arthroplasty

Am J Orthop. 2016 July;45(5):E245-E248

Extensive blood loss after total knee arthroplasty (TKA) is common, and affected patients often require blood transfusions. Studies suggest that antifibrinolytic agents such as aminocaproic acid (ACA) reduce blood loss and blood transfusion rates in patients undergoing TKA.

We conducted a study to evaluate whether a single intravenous 10-g dose of ACA given during primary unilateral TKA would decrease perioperative blood loss, raise postoperative hemoglobin levels, and reduce postoperative blood transfusion rates. We retrospectively reviewed the charts of 50 comparable cemented primary unilateral TKAs. Twenty-five patients had been given a single intraoperative 10-g dose of ACA (antifibrinolytic group), and the other 25 had not been given ACA (control group).

Postoperative drain output was decreased significantly (P < .0001) in the antifibrinolytic group (155 mL) compared with the control group (410 mL), as was the number of units of blood transfused after surgery (antifibrinolytic group, 0 units; control group, 10 units; P < .002). There were no adverse events in the antifibrinolytic group.

In TKA, perioperative blood loss and blood transfusion rates were reduced significantly in patients given a single intraoperative intravenous 10-g dose of ACA compared with patients not given antifibrinolytics. The positive effects of ACA were obtained without adverse events or complications.

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References

1. Ponnusamy KE, Kim TJ, Khanuja HS. Perioperative blood transfusions in orthopaedic surgery. J Bone Joint Surg Am. 2014;96(21):1836-1844.

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3. Van Aelbrouck C, Englberger L, Faraoni D. Review of the fibrinolytic system: comparison of different antifibrinolytics used during cardiopulmonary bypass. Recent Pat Cardiovasc Drug Discov. 2012;7(3):175-179.

4. Sepah YJ, Umer M, Ahmad T, Nasim F, Chaudhry MU, Umar M. Use of tranexamic acid is a cost effective method in preventing blood loss during and after total knee replacement. J Orthop Surg Res. 2011;6:22.

5. Kagoma YK, Crowther MA, Douketis J, Bhandari M, Eikelboom J, Lim W. Use of antifibrinolytic therapy to reduce transfusion in patients undergoing orthopedic surgery: a systematic review of randomized trials. Thromb Res. 2009;123(5):687-696.

6. Zufferey P, Merquiol F, Laporte S, et al. Do antifibrinolytics reduce allogeneic blood transfusion in orthopedic surgery? Anesthesiology. 2006;105(5):1034-1046.

7. Camarasa MA, Ollé G, Serra-Prat M, et al. Efficacy of aminocaproic, tranexamic acids in the control of bleeding during total knee replacement: a randomized clinical trial. Br J Anaesth. 2006;96(5):576-582.

8. Orpen NM, Little C, Walker G, Crawfurd EJ. Tranexamic acid reduces early post-operative blood loss after total knee arthroplasty: a prospective randomised controlled trial of 29 patients. Knee. 2006;13(2):106-110.

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10. Aguilera X, Martinez-Zapata MJ, Bosch A, et al. Efficacy and safety of fibrin glue and tranexamic acid to prevent postoperative blood loss in total knee arthroplasty: a randomized controlled clinical trial. J Bone Joint Surg Am. 2013;95(22):2001-2007.

During total knee arthroplasty (TKA), traditionally a thigh tourniquet is used to minimize blood loss. Although intraoperative blood loss is negligible, postoperative blood loss can be extensive, and patients often require blood transfusions. Transfusions expose patients to clinical risks and increase costs. Well-documented transfusion complications include allergic reaction, transfusion-related acute lung injury, transfusion-associated circulatory overload, venous thromboembolism, graft vs host disease, bloodborne infections, and immunomodulation.¹ Although measures are taken to reduce these risks, the costs associated with transfusions continue to escalate.²

Postoperative bleeding is attributed to fibrinolytic system activation. The antifibrinolytic agent aminocaproic acid (ACA), a synthetic analogue of the amino acid lysine, acts by competitively blocking the lysine-binding site of plasminogen, inhibiting fibrinolysis.³ Multiple studies have shown that ACA and a similar drug, tranexamic acid, can reduce postoperative blood loss when used intravenously in unilateral TKA.^4,5 However, more studies are needed to evaluate antifibrinolytic agents with comparative controls using standardized procedures and documented outcome measures. In addition, the majority of studies have used tranexamic acid rather than ACA, despite the lower cost and similar efficacy of ACA.^1,4 ACA is an inexpensive medication with a low risk profile, making it an attractive alternative to historical post-TKA management (which has a higher rate of blood transfusions) and a viable replacement in protocols already implementing tranexamic acid, the more expensive antifibrinolytic.^5,6 It has been proposed that ACA use reduces equipment (drain) costs, blood transfusion costs, exposure to complications of blood loss, and transfusion reactions and reduces or eliminates the need for costly medications, such as erythropoiesis-stimulating agents.

Kagoma and colleagues⁵ reported that antifibrinolytic agents may reduce bleeding by at least 300 mL and may reduce the need for transfusions by 50% or eliminate this need altogether. Other antifibrinolytic agents have been studied in unilateral TKA, with results showing decreased drainage and improved postoperative hemoglobin (Hb) levels.⁶

We conducted a study to evaluate the effectiveness of a single intraoperative dose of ACA in reducing postoperative blood loss and the need for blood transfusions with increased preservation of postoperative Hb levels.

Methods

In October 2011, Dr. Anderson initiated an intraoperative intravenous (IV) ACA protocol for primary unilateral TKA. Given the decreased drain output immediately observed, and patients’ increased postoperative Hb levels, a retrospective study was proposed. After obtaining full Institutional Review Board approval for the study, we retrospectively reviewed the medical charts of 50 consecutive patients who underwent primary unilateral TKA—the last 25 who had the surgery before the IV ACA protocol was initiated (control group) and the first 25 who were given the IV ACA medication during the surgery (antifibrinolytic group). Inclusion criteria were primary unilateral TKA, no bleeding dyscrasia, no history of anaphylactic response to antifibrinolytic agents, no history of deep vein thrombosis, and normal preoperative coagulation parameters, international normalized ratio (INR), and partial thromboplastin time. Exclusion criteria included lateral corner release, lateral retinacular release, combined extensive deep and superficial medial collateral ligament releases, and cardiac or peripheral stent in place.

Each surgery—a standard primary unilateral TKA with an intramedullary femoral component and an extramedullary tibial component—was performed by Dr. Anderson. Each component was cemented. Each patient underwent a posterior cruciate ligament release and/or a deep medial collateral ligament release. A well-padded thigh tourniquet was inflated before surgical incision, and it remained inflated until all postoperative surgical dressings were applied. Each patient in the antifibrinolytic group was given a 10-g dose of IV ACA at the start of implant cementation; the dose was administered over 10 minutes and was completely infused before tourniquet deflation. For each patient in the control group, a suction drain (Constavac, Stryker) was used. As postoperative drainage was so insignificant in the first 12 antifibrinolytic cases, use of the drain was then discontinued.

Using Aminocaproic Acid to Reduce Blood Loss After Primary Unilateral Total Knee Arthroplasty

References

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