The main objective of this study is to determine the time interval following the last treatment dose of enoxaparin at which the amount of anti-Xa level activity is reliably less than 0.2 international unit per milliliter (IU/mL) in patients presenting for elective surgery.
Enoxaparin is a factor Xa inhibitor commonly used for both prophylaxis against and treatment of thromboembolism. It is also frequently used off-label as a perioperative bridge for patients that are chronically anticoagulated prior to surgery, such as those taking Warfarin. It is an attractive option for perioperative use secondary to its predictable pharmacologic profile and the lack of recommended routine blood monitoring. Therefore, it is common to encounter a patient who has recently received a treatment dose of Enoxaparin prior to presenting for surgery. For these patients, and those on other anticoagulant medications, published guidelines have been developed to help guide clinical decision-making when the anesthetic/analgesic plan includes regional anesthesia.1 Currently, these guidelines recommend that a minimum of 24-hours should elapse following the last treatment dose of Enoxaparin before a neuraxial procedure is performed. However, a recently completed quality improvement project conducted at Wake Forest Baptist Medical Center found that almost 60% of patients presenting for surgery while on treatment dose enoxaparin still had significant anticoagulant activity 24-hours following their last dose, as demonstrated by anti-Xa level assay testing. Given that the risk of epidural hematoma formation is increased in the setting of abnormal coagulation parameters, the significance of this finding is that the risk of bleeding complications following a neuraxial procedure may still be increased 24-hours after the last treatment dose of enoxaparin. While the routine use of anti-Xa level testing may be a viable option to determine when residual enoxaparin activity is present before proceeding with a neuraxial procedure on a patient-by-patient basis, it is not universally available at all hospitals. Therefore, it is important to determine the time interval following the last enoxaparin dose at which the likelihood that a clinically relevant amount of residual anti-Xa level activity no longer persists, so that providers can confidently proceed with a neuraxial procedure when anti-Xa level testing is not available.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
122
The intervention is the implementation of a 36-hour time period from the last dose of treatment dose Enoxaparin to the blood sampling for anti-Xa testing.
This is the historical control arm. 24 hours removed from their last dose (time period from the last dose of treatment dose Enoxaparin to the blood sampling for anti-Xa testing)
Wake Forest University Baptist Medical Center
Winston-Salem, North Carolina, United States
Residual Anti-Xa Activity Levels Following Last Treatment Dose of Enoxaparin
Anti-Xa level activity will be measured in both groups using a chromogenic assay and a hybrid curve calibrated to both heparin and enoxaparin.
Time frame: Time Frame: 24 hours or 36 hours (based on randomization) after the last treatment dose of enoxaparin. Actual lab draw will vary, as planned, given surgical arrival time.
Time Point at Which Anti-Xa Activity is Lower Than 0.2 International Unit Per Milliliter (IU/mL) Using Modeling
The randomization of patients to either the 24-hour group or the 36-hour group will allow for modeling, which will generate a prediction of the time point at which the level of anti-Xa activity can reliably be assumed to be lower than 0.2 IU/mL.
Time frame: Time Frame: 24 hours or 36 hours (based on randomization) after the last treatment dose of enoxaparin. Actual lab draw will vary, as planned, given surgical arrival time.
Relationship Between Anti-Xa Levels and Patient Age
Analyze and determine the best-fit function (beta and standard error) for anti-Xa activity level activity (IU/mL) to determine if there is a significant association between anti-Xa activity at the time of presentation and patient age (years). Individual patient characteristics were assessed to determine their impact on the odds of success, defined as an anti-Xa level of \<0.2IU/mL. Patient characteristics assessed included age, sex, renal function (calculated by Cockcroft-Gault and modified Cockcroft-Gault formulae), and body mass index (BMI), the latter of which was assessed post-hoc. Odds ratios were calculated with both groups combined, as time from last dose varied and even overlapped between groups, which was expected/anticipated as part of the study design. All patient characteristics were analyzed using three separate time intervals from last dose (\<24-hours, 24-hours through 35.9-hours, and \>36-hours).
Time frame: Anti-Xa levels were measured at the time of presentation for surgery. Age was collected at the time of enrollment.
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Relationship Between Anti-Xa Levels and Patients Gender (Sex)
Analyze and determine the best-fit function (beta and standard error) for anti-Xa activity level activity (IU/mL) to determine if there is a significant association between anti-Xa activity at the time of presentation and (gender= male or female). Individual patient characteristics were assessed to determine their impact on the odds of success, defined as an anti-Xa level of \<0.2IU/mL. Patient characteristics assessed included age, sex, renal function (calculated by Cockcroft-Gault and modified Cockcroft-Gault formulae), and body mass index (BMI), the latter of which was assessed post-hoc. Odds ratios were calculated with both groups combined, as time from last dose varied and even overlapped between groups, which was expected/anticipated as part of the study design. All patient characteristics were analyzed using three separate time intervals from last dose (\<24-hours, 24-hours through 35.9-hours, and \>36-hours).
Time frame: Anti-Xa levels were measured at the time of presentation for surgery. Gender was collected at the time of enrollment.