Introduction: Endoprosthetic reconstruction presents a significant risk of perioperative blood loss. Tranexamic acid (TXA) is an antifibrinolytic agent used to reduce blood loss in orthopaedic procedures. The safety and efficacy of TXA in arthroplasty are well documented. There is, however, a dearth of literature exploring the safety and efficacy of TXA in musculoskeletal oncology patients. This retrospective, comparative study explores the effects of TXA on perioperative blood loss, blood transfusion rates, venous thromboembolism (VTE) occurrence, and hospital stay in patients undergoing resection of an aggressive bone tumor and endoprosthetic reconstruction. Methods: For the study, charts from a total of 90 patients who underwent resection of an aggressive bone tumor and endoprosthetic reconstruction were reviewed; of these patients, 34 were in the TXA group and 56 in the non-TXA group. Study participants composed of a heterogeneous group of patients with primary bone sarcoma and metastatic osseous disease. Patients in the TXA group received 1 g of topical TXA administered into the wound bed before closure. The Hemoglobin Balance method was used to calculate blood loss. Patients were followed for 6 weeks. Results: Patients undergoing proximal femur replacement and distal femur replacement in the TXA group experienced a 796 and 687 mL reduction in 72-hour mean blood loss, respectively (P = 0.0003 and P = 0.006). Average blood transfusions decreased by 0.45 U of packed red blood cells per patient in the TXA group (P = 0.048) and transfusion incidence decreased by 21.1% compared with the non-TXA group (P = 0.04). Patients undergoing proximal femur replacement in the TXA group left the hospital 2.2 days earlier than those in the non-TXA group (P = 0.0004). No increase in VTE rate was observed with TXA use. Discussion: This study found results similar to total joint arthroplasty with regard to TXA's effect on perioperative blood loss, transfusion rates, hospital stay, and VTE occurrence. It provides initial data to support the efficacy of topical TXA use in this patient cohort. Level of Evidence: Level III, retrospective cohort study
Background and Objectives Benign bone tumors are often treated with extended curettage utilizing an adjuvant therapy to eliminate any remaining tumor cells. The purpose of this study was to explore and compare the histologic depth of necrosis created by various adjuvant therapies used in the treatment of benign bone tumors. Methods A high‐speed burr was utilized to create cortical defects within porcine humeri and femora. Phenol, polymethyl methacrylate (PMMA), argon beam coagulation (ABC), liquid nitrogen, and the Bipolar Hemostatic Sealer (BHS) were each applied to five defects, with an additional five defects left untreated as a control. The maximal depth of necrosis was determined under microscopic examination. Results The phenol, PMMA, ABC, liquid nitrogen, and BHS demonstrated an average histologic depth of necrosis of 0.30, 0.78, 2.54, 2.54, and 0.92 mm, respectively, each of which was significantly increased compared to the control group (p = .001, .003, .003, .01, and <.001). Their respective variances, a measure of reproducibility, were 0.01, 0.09, 0.96, 1.93, and 0.03 mm2. Conclusion This study confirms, through histologic analysis, adjuvant therapies create a rim of cellular necrosis beyond that of burring during extended curettage, supporting their use in the treatment of benign bone tumors. Furthermore, it provides a head‐to‐head comparison.
Introduction: Tranexamic acid (TXA) decreases blood loss, perioperative transfusion rates, and cost in total hip and total knee arthroplasty. In a previous study, topical TXA decreased both perioperative blood loss and transfusions in patients undergoing resection of aggressive bone tumors and endoprosthetic reconstruction. The purpose of this study was to explore the cost effectiveness of TXA in patients undergoing resection of an aggressive bone tumor and endoprosthetic reconstruction, assessing transfusion cost, TXA administration cost, postoperative hospitalization cost, posthospital disposition, and 30-day readmissions. Methods: This study included 126 patients who underwent resection of an aggressive bone tumor and endoprosthetic resection at a single academic medical center; 61 patients in the TXA cohort and 65 patients in the non-TXA cohort. The cost of 1 unit of packed red blood cells, not including administration or complications, was estimated at our institution. The cost of hospitalization was estimated for lodging and basic care. The cost of TXA was $55 per patient. Patients were followed up for 30 days to identify hospital readmissions. Results: Patients in the TXA cohort experienced a TXA and blood transfusion cost reduction of $155.88 per patient (P = 0.007). Proximal femur replacement patients experienced a $282.05 transfusion cost reduction (P = 0.008), whereas distal femur replacement patients only experienced a transfusion cost reduction of $32.64 (P = 0.43). An average hospital admission cost reduction of $5,072.23 per patient (P < 0.001) was associated with TXA use. Proximal femur replacement patients who received TXA experienced a hospital cost reduction of $5,728.38 (P < 0.001), whereas distal femur replacement patients experienced a reduction of $3,724.90 (P = 0.01). No differences between the cohorts were identified in discharge to home (P = 0.37) or readmissions (P = 0.77). Discussion: TXA administration is cost effective in patients undergoing resection of an aggressive bone tumor and endoprosthetic reconstruction through reducing both perioperative transfusion rates and postoperative hospitalization. Level of evidence: III—Retrospective Cohort Study
Background and Objectives: Tranexamic acid (TXA) has been shown to decrease perioperative blood loss, transfusions, and cost in patients undergoing resection of aggressive bone tumors and endoprosthetic reconstruction. This study explored the effect of TXA administration on postoperative mobilization in these patients.Methods: This study included 126 patients who underwent resection of an aggressive bone tumor and endoprosthetic reconstruction; 61 patients in the TXA cohort and 65 patients in the non-TXA cohort. Postoperative physical therapy (PT) and occupational therapy notes were reviewed; patient ambulation distance and duration of therapies were recorded.Results: Patients in the TXA cohort ambulated further on all postoperative days, which was significant on postoperative Day 1 (POD1) (p = 0.002) and postoperative Day 2 (POD2) (p < 0.001). The TXA cohort ambulated 85% further per PT session 87.7 versus 47.4 ft (p < 0.001) and participated 14% longer, 36.1 versus 31.7 min (p < 0.001). Multivariate analysis identified a significant inverse association between postoperative hospitalization length and POD1, POD2, postoperative Day 3, and total ambulation (p < 0.001). Blood transfusion was independently associated with a 1.5 day increase in postoperative hospitalization (95% confidence interval: 0.64-2.5; p < 0.001).Conclusions: TXA administration was associated with increased postoperative ambulation and endurance. Increased postoperative ambulation was associated with decreased length of stay and increased likelihood to discharge home.
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