Effectiveness, Safety, and Costs of Thromboprophylaxis with Enoxaparin or Unfractionated Heparin Among Medical Inpatients With Chronic Obstructive Pulmonary Disease or Heart Failure

Background: Chronic obstructive pulmonary disease (COPD) and heart failure (HF) are risk factors for venous thromboembolism (VTE). Enoxaparin and unfractionated heparin (UFH) help prevent hospital-associated VTE, but few studies have compared them in COPD or HF. Objectives: To compare effectiveness, safety, and costs of enoxaparin vs UFH thromboprophylaxis in medical inpatients with COPD or HF. Methods: This retrospective cohort study included adults with COPD or HF from the Premier PINC AI Healthcare Database. Included patients received prophylactic-dose enoxaparin or UFH during a >6-day index hospitalization (the first visit/admission that met selection criteria during the study period) between January 1, 2010, and September 30, 2016. Multivariable regression models assessed independent associations between exposures and outcomes. Hospital costs were adjusted to 2017 US dollars. Patients were followed 90 days postdischarge (readmission period). Results: In the COPD cohort, 114 174 (69%) patients received enoxaparin and 51 011 (31%) received UFH. Among patients with COPD, enoxaparin recipients had 21%, 37%, and 10% lower odds of VTE, major bleeding, and in-hospital mortality during index admission, and 17% and 50% lower odds of major bleeding and heparin-induced thrombocytopenia (HIT) during the readmission period, compared with UFH recipients (all P <.006). In the HF cohort, 58 488 (58%) patients received enoxaparin and 42 726 (42%) received UFH. Enoxaparin recipients had 24% and 10% lower odds of major bleeding and in-hospital mortality during index admission, and 13%, 11%, and 51% lower odds of VTE, major bleeding, and HIT during readmission (all P <.04) compared with UFH recipients. Enoxaparin recipients also had significantly lower total hospital costs during index admission (mean reduction per patient: COPD, 1280;HF,2677) and readmission (COPD, 379;HF,1024). Among inpatients with COPD or HF, thromboprophylaxis with enoxaparin vs UFH was associated with significantly lower odds of bleeding, mortality, and HIT, and with lower hospital costs. Conclusions: This study suggests that thromboprophylaxis with enoxaparin is associated with better outcomes and lower costs among medical inpatients with COPD or HF based on real-world evidence. Our findings underscore the importance of assessing clinical outcomes and side effects when evaluating cost-effectiveness.


INTRODUCTION
Hospital-associated venous thromboembolism (HA-VTE) consists of deep venous thrombosis (DVT) or pulmonary embolism (PE) that occurs during hospitalization or within 90 days after discharge.6][17][18][19][20] In a large population-based study, adults with stage III/IV COPD had approximately double the risk of a VTE event compared with adults with normal airflow. 15In another large prospective study, 7.3% of patients admitted with COPD exacerbations were diagnosed with VTE within 48 hours. 21Among inpatients with HF, the incidence of symptomatic HA-VTE was 2.48% in a large meta-analysis, 18 while new-onset HF was associated with a 2.2-fold increase in 30-day odds of VTE in a matched cohort study of inpatient Medicare claims data. 228][39][40] Moreover, joint guidelines from the American Heart Association, American College of Cardiology, and Heart Failure Society of America specifically recommend VTE prophylaxis for patients hospitalized with HF. 41 In the meta-analysis of inpatients with HF, the pooled incidence of symptomatic HA-VTE was 1.47% among patients who received thromboprophylaxis vs 3.73% among those who did not. 18Although data on VTE prophylaxis for patients with COPD is less extensive, the Global Initiative for Chronic Obstructive Lung Disease (GOLD) has recommended thromboprophylaxis for patients hospitalized with COPD exacerbations. 42fractionated heparin (UFH) and low-molecular-weight heparins (LMWHs), such as enoxaparin, are the most commonly used agents for pharmacologic thromboprophylaxis in hospitalized individuals. 13Although these agents have distinct mechanisms of actions, pharmacokinetics, and risk profiles, little evidence is available to help guide clinicians' decisions regarding which one to use for thromboprophylaxis in the setting of COPD or HF.To help fill this gap, we compared real-world efficacy, safety, and economic outcomes among US adults who were medical inpatients, had a primary or secondary diagnosis of COPD or HF, and received thromboprophylaxis with UFH or enoxaparin during their hospital stay.

Study Design and Data Source
This was a retrospective study of the Premier PINC AI TM Healthcare Database (PHD; formerly known as the Premier Healthcare Database), a service-level, all-payer hospital discharge database that covers approximately 25% of annual admissions in the US, including admissions from more than 850 rural and urban nongovernmental, nonprofit, community and teaching hospitals and health systems in 45 states and the District of Columbia.Each patient in the PHD is allocated a unique masked identifier that links visits within a hospital system.Data are extracted from standard hospital discharge files and include patient demographics, diagnoses at admission and discharge, comorbidities, and date-stamped, billed items linked to procedures, medical services, medications, laboratory tests, diagnostic and therapeutic services, and health status.Medication data are available for each day of the hospital stay and include medication type, dose, quantity, and cost.All data are de-identified, compliant with the Health Insurance Portability and Accountability Act (HIPAA), and exempt from institutional review board oversight as per 45 CFR §46.101(b) (4).

Patients
Patients in this study were at least 18 years old, had a primary or secondary discharge diagnosis of COPD or HF based on concurrent International Classification of Diseases (ICD), Ninth Revision, Clinical Modification (CM) or ICD Tenth Revision CM codes (Supplemental Material), were hospitalized for 6 or more days, received 1 or more prophylactic dose of enoxaparin (≤40 mg/day) or UFH (≤15 000 IU/ day) during their hospital stay, and were discharged between January 1, 2010, and September 30, 2016.For each patient, the index hospitalization was defined as the first admission that met these criteria.Because HA-VTE often is not identified until after discharge, 5 admissions to the same hospital system within 90 days after index discharge were also identified and evaluated separately.
Patients were excluded from the study if they received enoxaparin, UFH, fondaparinux, dalteparin, or rivaroxaban during the 90 days prior to their index admission; if they had a diagnosis of VTE during the 90 days prior to or the first 2 days of the index admission; or if they received therapeutic-dose anticoagulants during the first 2 days of the index admission.Patients also were excluded if they had a diagnosis of a hemorrhagic disorder, thrombophilic condition, or active peptic ulcer; received dabigatran, warfarin, edoxaban, apixaban, rivaroxaban, or any combination of anticoagulants (of any type or class); or received mechanical VTE prophylaxis or underwent surgery or obstetric procedures during index admission or the 90 days beforehand.Patients with missing cost data also were excluded.

Outcome Measures
The main clinical outcome measure was an event of VTE during index hospitalization or 90-day readmission period.Secondary clinical outcomes were in-hospital mortality, PE-related mortality, major bleeding, and heparin-induced thrombocytopenia (HIT) during index hospitalization or readmission period.Relevant ICD-9/10-CM diagnosis codes are provided in the Supplemental Material.Economic outcomes were the cost of pharmacologic thromboprophylaxis during index hospitalization (ie, the combined cost of all doses of UFH or enoxaparin), and total hospital costs during index hospitalization and readmission period.Costs were calculated per patient based on hospital chargemaster data and adjusted to 2017 US dollars based on the Consumer Price Index for all urban consumers for hospital and related services.
We assessed variables that might confound relationships between exposure (enoxaparin vs UFH) and study outcomes, including patient demographics (age, sex, race, payer type), visit characteristics (admission type and source, discharge disposition, intensive care unit [ICU] admission), comorbidities based on the Deyo modification of the Charlson Comorbidity Index (which adapts the CCI for use with administrative databases of ICD codes), 43 and severity of illness based on the 3M All Patient Refined TM Diagnosis-Related Group (APR-DRG) Severity of Illness (SOI) score.The APR-DRG SOI is categorized as minor, moderate, major, or extreme and incorporates age, procedures, diagnoses at admission, and any additional diagnoses made during the hospital stay. 44We also evaluated individual comorbidities by analyzing ICD-9/10 diagnosis codes for myocardial infarction, lower limb fracture, inflammatory bowel disease, malignant hypertension (including renal disease with or without renal failure), nephrotic syndrome, and obesity (see Supplemental Material).These covariates were assessed because they are risk factors for the clinical outcomes of interest and may be associated with the exposure of interest (enoxaparin vs UFH).In addition, we evaluated the prevalence of COPD in the HF cohort, the prevalence of HF in the COPD cohort, and intubation (a risk factor for VTE) in both cohorts.Finally, we assessed hospital characteristics, including geographic region, population served (urban or rural), teaching status (teaching or non-teaching), and categorical bed number.

Statistical Analyses
Analyses were performed using SAS v. 9.4 (SAS Institute Inc.).When P values were calculated, statistical significance was defined as P < .05.Patients were grouped according to whether they had received thromboprophylactic-dose UFH or enoxaparin during index hospitalization.Descriptive analyses of demographic data and visit, clinical, and hospital characteristics were reported as proportions and frequencies for categorical variables and means ± SD for continuous variables.To evaluate differences between groups, the χ 2 test was used for categorical variables and Student's t-test or the Wilcoxon rank sum test was used for continuous variables.To determine which test to use, normality of data was evaluated by the Kolmogorov-Smirnov test and by histogram.
Multivariable logistic regression models were created to compare the adjusted odds of VTE, in-hospital mortality, PE-related mortality, and major bleeding between the enoxaparin and UFH groups for both the index hospitalization period and the 90-day readmission period.To control for possible confounding, models were adjusted for patients' demographic characteristics, visit and hospital characteristics, severity of illness (APR-DRG SOI score and ICU stay), CCI category, intubation, and individual comorbidities.We did not adjust for serum creatinine concentration because this is not included in the PHD.
For each group, we also calculated the unadjusted mean (± SD) cost of thromboprophylaxis per patient during index hospitalization, and the unadjusted mean (± SD) total cost of hospitalization per patient during index hospitalization and 90-day readmission period.To minimize the effect of outliers, costs were winsorized at the 2.5th percentile and the 99th percentile (ie, values <2.5th percentile were assigned the value of the 2.5th percentile, and values above the 99th percentile were assigned the value of the 99th percentile).Generalized linear models with gamma link function were constructed, and results were reported as adjusted means and CIs.Each regression model was evaluated for fitness and convergence of algorithms.Regression diagnostics of multicollinearity between variables showed no need to delete any variable.

COPD Cohort
Among 288 869 patients with COPD, 165 185 met inclusion criteria, of whom 114 174 (69%) received thromboprophylactic-dose enoxaparin and 51 011 (31%) received thromboprophylactic-dose UFH during index hospitalization.Table 1 compares the two exposure groups based on demographic, clinical, and hospital characteristics.On average, UFH recipients were 2 years older and were significantly more likely to be male, non-white, and transferred from an acute care facility compared with patients who received enoxaparin (all P < .0001).Patients who received enoxaparin had a 0.4-day shorter mean hospital length of stay (LOS) and a significantly lower rate of ICU admission (27% vs 34%, P < .0001).They also had a lower comorbidity burden, with a mean CCI score of 2.7 ± 2.1 compared with 3.4 ± 2.3 in the UFH group (P < .0001).The largest differences in prevalence of individual comorbidities were for renal disease (11% in the enoxaparin group vs 24% in the UFH group) and HF (27% vs 37%, respectively).Malignant hypertension was the only comorbidity that was more prevalent in the enoxaparin group vs the UFH group (10% vs 9%, P < .0001).

Heart Failure Cohort
Among 199 022 patients with HF, 101 214 met study inclusion criteria, of whom 58 488 (58%) received thromboprophylactic-dose enoxaparin and 42 726 (42%) received thromboprophylactic-dose UFH during index hospitalization.Table 3 compares the two exposure groups.Mean age was 72 ± 14 years in each group.Similar to the COPD cohort, recipients of UFH were significantly more likely to be male, non-White, and transferred from an acute care facility (all P < .0001),while patients who received enoxaparin had a 0.4-day shorter mean LOS (P < .0001)and a lower rate of ICU admissions during index hospitalization (31% vs 35% in the UFH group, P < .0001).Enoxaparin recipients had a lower overall comorbidity burden vs the UFH group (mean CCI scores, 3.4 ± 1.9 vs 3.7 ± 2.0) but a higher prevalence of malignant hypertension (12% vs 11%, respectively) and obesity (25% vs 23%, respectively) (both P < .0001).Among all the individual comorbidities that were evaluated, the greatest differences in prevalence between exposure groups were for renal disease (41% of UFH recipients vs 25% of enoxaparin recipients) and COPD (45% vs 54%, respectively).
During the index hospitalization period, unadjusted rates of VTE were 0.50% in the enoxaparin group and 0.66% in the UFH group (P < .0007).The enoxaparin group had significantly lower unadjusted rates of in-hospital mortality (5.2% vs 6.7%, P < .0001),PE-related mortality (0.05% vs 0.09%, P = .03),and major bleeding (1.9% vs 3.0%, P < .0001)and a significantly lower rate of extreme APR-SOI scores at discharge (28% vs 33%, P < .0001).Events of HIT were not reported in either group during index hospitalization.
The risk of 90-day readmissions was 44% in each exposure group.Among readmitted patients, those who had received enoxaparin had significantly lower unadjusted rates of major bleeding (3.4% vs 4.0% in the UFH group) and HIT (0.07% vs 0.16% in the UFH group) (both P <.01).The two exposure groups did not significantly differ based on unadjusted rates of VTE (2.3% and 2.5%, respectively), overall mortality (6.4% and 6.5%), and PE-related mortality (0.13% and 0.17%).

Economic Outcomes
Table 5 shows economic outcomes for the COPD cohort and the HF cohort.In the COPD cohort, the adjusted mean cost of thromboprophylaxis per patient was US$77 higher in the enoxaparin group than the UFH group (P < .0001).However, total hospital costs were significantly lower in the enoxaparin group during the index hospitalization (mean reduction per patient: $1280, P < .0001)and the 90-day readmission period (mean reduction per patient: $379, P < .0001).In the HF cohort, the adjusted mean cost of thromboprophylaxis per patient was $70 higher in the enoxaparin group than the UFH group (P < .0001),but once again, total hospital costs were significantly lower in the enoxaparin group during the index hospitalization (mean reduction per patient: $2677, P < .0001)and the 90-day readmission period (mean reduction per patient: $1024, P < .0001).

DISCUSSION
In this large, real-world observational study, we compared clinical and economic outcomes among inpatients with COPD or HF who received thromboprophylaxis with enoxaparin or UFH.During the index hospitalization period, thromboprophylaxis with enoxaparin was associated with significantly lower adjusted odds of VTE, major bleeding, and in-hospital mortality among patients with COPD and with significantly lower adjusted odds of major bleeding and in-hospital mortality among patients with HF.During the 90 days after index discharge (the readmission period), enoxaparin was associated with significantly lower adjusted odds of bleeding and HIT in both cohorts, and with significantly lower adjusted odds of VTE in patients  LMWHs such as enoxaparin comprise a distinct drug class that differs from UFH in several important ways.LMWHs have more predictable bioavailability and pharmacokinetics, which facilitates fixed-dose prophylaxis without the need for laboratory monitoring.
6][47][48][49][50][51][52][53][54] In contrast, UFH has a rapid onset of action and undergoes efficient metabolic clearance, making it easier to titrate doses and stop anticoagulation rapidly (protamine sulfate efficiently reverses UFH activity). 55ecause UFH does not undergo significant renal clearance, it is the JOURNAL OF HEALTH ECONOMICS AND OUTCOMES RESEARCH thromboprophylactic agent of choice for patients with renal insufficiency or renal failure. 540][61][62][63] Many of these studies included patients with COPD or HF, but almost none focused on these patients, and subgroup data usually were not reported.An exception is a multicenter, randomized, open-label study comparing thromboprophylaxis with enoxaparin or UFH in 451 patients with severe respiratory disease or HF. 46In unadjusted analyses, patients with HF who received enoxaparin had 60% to 64% lower rates of DVT and PE compared with their counterparts who received UFH.A somewhat less pronounced effect was observed in patients with severe respiratory disease.The study did not report cost data.As in this prior study, we found that thromboprophylaxis with enoxaparin vs UFH was associated with a significant reduction in rates of VTE, although differences did not always retain statistical significance in multivariable analyses.Rates of VTE during index hospitalization were less than 1% in all exposure groups in our study, which resembles findings from recent cohort studies of medical inpatients. 5,6he overall rate of VTE in our study was somewhat higher in the HF cohort (0.57%) than the COPD cohort (0.41%), which could reflect a higher prevalence in the HF cohort of mobility-limiting factors such as longer LOS, higher comorbidity burden, more extreme severity of illness, and more frequent ICU admissions.
Prior studies have reported mixed evidence on whether pharmacologic thromboprophylaxis improves in-hospital mortality. 31,61,64,65ne explanation for this discrepancy is that different study populations presumably have different levels of risk for both VTE and major bleeding.In a recent real-world study of general medical inpatients from the PHD, inpatient thromboprophylaxis with enoxaparin was associated with significantly lower adjusted odds of PE-related mortality and overall mortality during index hospitalization, as compared with inpatient thromboprophylaxis with UFH. 61A study of PHD data on medical inpatients with obesity (a significant risk factor for VTE) reported similar findings. 65In our study, the adjusted odds of mortality during index hospitalization was approximately 10% lower with enoxaparin vs UFH thromboprophylaxis, a statistically significant and clinically meaningful difference.Rates of PE-related mortality also were consistently lower with enoxaparin in our study, but differences did not remain statistically significant after multivariable adjustment, probably because PE-related mortality was rare (the incidence was <0.2% in all 4 exposure groups).During the 90-day readmission period in our study, the adjusted odds of in-hospital mortality was slightly higher in the enoxaparin groups vs the UFH groups.Although the differences did not reach statistical significance, the trend differs from other measured clinical outcomes, which favored enoxaparin.The reason for this discrepancy is unclear but could indicate the presence of an unmeasured variable that slightly increased mortality risk in the enoxaparin groups after discharge.Given that the differences in 90-day mortality between exposure groups were small and not statistically significant, they would not be expected to have a significant impact on cost outcomes in our study.
7][68][69] In addition, patients with COPD are at heightened risk for hemorrhagic stroke. 70,71hus, it is crucial to weigh the risks and benefits of different anticoagulation strategies when considering thromboprophylaxis in these patient populations.In our study, patients with COPD or HF who received enoxaparin had significantly lower adjusted odds of bleeding during index hospitalization and during the 90 days after index discharge compared with patients who received UFH.Enoxaparin also was associated with lower bleeding risk compared with UFH in prior real-world PHD studies of general medical inpatients and medical inpatients with obesity. 61,65Both these studies and our study also identified lower rates of HIT with enoxaparin vs UFH. 61,65These findings are in line with safety data from two prior clinical trials comparing enoxaparin with UFH in medical inpatients and patients undergoing percutaneous coronary intervention. 49,72In contrast, the open-label PREVAIL study of patients with stroke unable to walk unassisted found that risk of major bleeding was higher with enoxaparin vs UFH. 47These findings highlight the need to carefully consider individual comorbidities and risks for VTE and bleeding when deciding on a thromboprophylactic agent, dose, and duration.
In our study, enoxaparin appears to be cost-effective compared with UFH.Among patients with COPD, adjusted mean total hospital costs per patient were 7.5% ($1280) lower during index hospitalization and 6.4% ($380) lower during the 90-day readmission period among enoxaparin recipients compared with UFH recipients.Similar patterns were observed in the HF cohort, where total mean hospital costs among enoxaparin recipients were $2677 lower during index hospitalization and $1024 lower during the 90-day readmission period, as compared with UFH recipients.Thromboprophylaxis with enoxaparin vs UFH also was associated with significant cost reductions in the prior PHD studies of general medical inpatients and medical inpatients with obesity. 61,65Moreover, decision analysis studies of medical inpatients also have demonstrated that thromboprophylaxis with enoxaparin was more cost-effective than UFH. 59,73Based on these findings, thromboprophylactic enoxaparin should be regarded as a cost-effective and potentially cost-saving strategy for preventing HA-VTE among appropriately selected medical inpatients, including patients with COPD or HF.

Limitations
Most limitations of our study are intrinsic to retrospective studies of hospital administrative databases.Because patients were identified by ICD diagnosis codes, not by medical chart review, missing or erroneous codes or the use of insufficiently selective codes could have affected evaluations of study eligibility, covariates, and outcomes.For example, patients hospitalized for reasons other than acute COPD or HF exacerbation might have been underselected.We also were unable to stratify patients based on COPD or HF severity because the PHD lacks the relevant clinical data.5][76] Events of PE also might have been underdetected, because PE can cause nonspecific signs and symptoms, such as dyspnea, that overlap with symptoms of HF and COPD exacerbation. 77,78In addition, because this is an observational study, no causal inference can be made between the exposure and outcome variables.
In any observational study, unmeasured factors can potentially confound relationships between exposures and outcomes of interest.The PHD lacks information on some VTE risk factors (such as smoking status) that could have contributed to unmeasured confounding.Of note, in our study, UFH recipients were significantly more likely to be admitted to the ICU and to have extreme severity of illness scores compared with patients who received enoxaparin.The reason for this is unclear, but it is noteworthy that renal disease was approximately twice as prevalent in the UFH groups as the enoxaparin groups.The absolute prevalence of renal disease was especially high among patients with HF (32% overall; 41% in UFH recipients).Heart failure causes venous congestion and reduces renal perfusion, ultimately leading to renal dysfunction. 79Unlike enoxaparin, UFH usually does not require dose adjustment in the setting of renal impairment (ie, creatinine clearance <30 mL/min), so UFH is often the anticoagulant of choice in the setting of HF. 80 Although severe COPD can lead to right-sided HF, 81 this appears to have less frequently necessitated the use of UFH in our study-only 31% of patients with COPD received UFH, compared with 42% of patients with HF.A final limitation of this study is that the PHD only tracks readmissions to the same hospital system, meaning that patients readmitted to other hospital systems would be lost to follow-up.However, loss to follow-up was unlikely to have differed between exposure groups.

CONCLUSION
This study suggests that thromboprophylaxis with enoxaparin is associated with better outcomes and lower costs for preventing HA-VTE among medical inpatients with COPD or HF based on real-world evidence.When evaluating cost-effectiveness, it is vital to comprehensively

Figure 1 .
Figure 1.Risk Factors for Venous Thromboembolism and Prothrombotic Mechanisms in Obstructive Pulmonary Disease and Heart Failure

Table 1 .
Demographic, Clinical, and Hospital Characteristics of Medically Ill US Adults With COPD Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization

Table 1 .
Demographic, Clinical, and Hospital Characteristics of Medically Ill US Adults With COPD Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization

Table 2 .
Multivariable Analysis of Clinical Outcomes Among Medically Ill US Adults With COPD Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization aNo events of HIT were coded for the index admission period.b Adjusted for age, sex, race, payer type, admission source, admission type, ICU stay (yes/no), geographic area, obesity, severity of illness, CCI category, myocardial infarction, inflammatory bowel disease, obesity, nephrotic syndrome, fracture of lower limb, heart failure, intubation, malignant hypertension, and hospital characteristics (teaching vs non-teaching, hospital beds).Abbreviations: CI, confidence interval; COPD, chronic obstructive pulmonary disease; HIT, heparin-induced thrombocytopenia; OR, odds ratio; PE, pulmonary embolism; VTE, venous thromboembolism.

Table 3 .
Demographic, Clinical, and Hospital Characteristics Among Medically Ill US Adults With Heart Failure Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization with HF.Enoxaparin cost more than UFH, but in both the COPD and HF cohorts, enoxaparin recipients had significantly lower adjusted mean hospital costs both during index hospitalization and if they were readmitted.

Table 3 .
Demographic, Clinical, and Hospital Characteristics Among Medically Ill US Adults With Heart Failure Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization Myocardial infarction, heart failure, peripheral vascular disease, history of cerebrovascular accident and transient ischemic attacks, dementia, COPD, connective tissue disease, mild or moderate to severe liver disease, diabetes mellitus uncomplicated or with end-organ damage, hemiplegia, mild or moderate to severe renal disease, malignancy, and HIV-positive status.Abbreviations: APR SOI, All Patient Refined™ Diagnosis-Related Group Severity of Illness score at discharge; CCI, Charlson Comorbidity Index; COPD chronic obstructive pulmonary disease, ICU intensive care unit. a

Table 4 .
Multivariable Analysis of Clinical Outcomes Among Medically Ill US Adults With Heart Failure Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index HospitalizationNo events of HIT were coded for the index admission period.b Adjusted for age, sex, race, payer type, admission source and type, intensive care unit stay (yes vs no), geographic area, obesity, severity of illness, Charlson Comorbidity Index category, chronic obstructive pulmonary disease, myocardial infarction, inflammatory bowel disease, obesity, nephrotic syndrome, fracture of lower limb, intubation, malignant hypertension, and hospital characteristics (teaching vs non-teaching, hospital bed size category, urban vs rural).Abbreviations: CI, confidence interval; HIT, heparin-induced thrombocytopenia; OR, odds ratio; PE, pulmonary embolism; VTE venous thromboembolism. a

Table 5 .
Economic Outcomes Among Medically Ill US Adults With COPD or HF Who Received Thromboprophylaxis With Enoxaparin or Unfractionated Heparin During Their Index Hospitalization Adjusted for patient characteristics (age, sex, race, payer), visit characteristics (admission source and type, and ICU admission), clinical characteristics (severity of illness, CCI score, HF, myocardial infarction, inflammatory bowel disease, nephrotic syndrome, fracture of lower limb, intubation, malignant hypertension), and hospital characteristics (teaching status, bed number category, geographic region, and rurality). a