Supportive and Preventive Medicine
or major bleeding rates with twice-daily regimens compared with thrice-daily regimens in nonsurgical
hospitalized patients (Chest 2011;140:374-81). Most of these patients were not critically ill and had few
comorbidities. A more recent observational study using the Premier Healthcare Database compared
thrice-daily with twice-daily dosing in 30,800 critically ill patients. No significant differences occurred
in VTE rates (6.16 vs. 6.23, p=0.8) or bleeding (0.23 vs. 0.33, p=0.084) in the propensity-matched cohort.
Bioavailability of subcutaneously administered drugs is reduced in critically ill patients with the
concomitant use of vasoactive drugs or the presence of edema, thereby potentially reducing the effect.
A high proportion of critically ill patients have acute kidney injury, which may limit the use of LMWH.
Reduced doses of LMWH (Table 9), with or without antiβfactor Xa (anti-Xa) monitoring, may be
considered depending on risk-benefit assessment; however, LDUH is often preferred in critically ill
patients with a CrCl less than 30 mL/min/1.73 m2, particularly in patients receiving peritoneal dialysis,
hemodialysis, or continuous veno-venous hemofiltration.
Bleeding
Bleeding rates in critically ill patients vary, depending on the type of pharmacologic prophylaxis.
Patients at high risk of bleeding are often excluded from studies.
Patients at high risk of bleeding with a moderate to high risk of VTE may be considered for
mechanical VTE prophylaxis; however, pharmacologic prophylaxis should be reassessed when the
bleeding risk is no longer present.
Limited evidence exists to guide dosing in the critically ill population with obesity. An inverse
relationship between body weight and anti-Xa concentration may exist in patients with obesity;
however, the risk of VTE and the optimal anti-Xa concentrations to achieve are unclear. Some
clinicians may choose heparin 7500 units subcutaneously every 8 hours over heparin 5000 units
subcutaneously every 8 hours in patients with BMI greater than 40 kg/m2; however, several studies,
2016;36:740-8; Hosp Pharm 2016;51:376-81). There is also controversy regarding the optimal
approach to VTE prophylaxis with enoxaparin in patients with a BMI greater than 40 kg/m2;
approaches to dosing and anti-Xa level vary significantly because of the varying populations studied.
Common strategies include either a fixed dose of 40 mg subcutaneously twice daily or 0.5 mg/kg twice daily.
For patients with a BMI greater than 50 mg/m2, in addition to weight-based dosing, some clinicians use
If using anti-Xaβguided therapy, peak concentrations are typically ordered at steady state; they
should be obtained 3 to 5 hours after administration of the third or fourth dose of enoxaparin
initiation or dose change. Goal anti-Xa for VTE prophylaxis is 0.2 to 0.4 units/mL (HCA Healthc J
Med. 2023;4(2):105-109).
Oral Anticoagulants for VTE Prophylaxis
The only study evaluating direct oral anticoagulants (DOACs) for VTE prophylaxis in critically ill
patients was a substudy of extended duration (35-42 days) of betrixaban versus shorter duration (10 Β± 4
days) LMWH in critically ill medical patients. Of the 7513 patients in the full cohort, 703 critically ill
patients were included in the substudy. Extended-duration betrixaban reduced the rate of VTE at 35-42
days from 7.95% to 4.27% (p=0.042). Major bleeding in the two groups was 1.14% and 3.13% (p=0.07).
These findings should currently be treated as exploratory, given that the full study had predefined
Betrixaban was removed from the market in April 2020 because of a lack of commercial success.