Abstract 2311

Oral anticoagulant therapy (OAT) is effective in preventing thrombotic complications in atrial fibrillation (AF) and venous thrombosis but its use is associated with increased bleeding. Risk scores such as CHADS2 are used to predict thrombotic complications in patients with AF, but scores predicting bleeding are less studied. A number of bleeding risk scores (BRS) has been proposed, however they might have different predictive abilities and performance. Moreover, these scores aim to identify major bleeding (MB) but have not evaluated clinically relevant non-major bleeding (CRNMB). Recent guidelines advocate the use of scores to assess bleeding risk in patients with atrial fibrillation being considered for OAT despite studies suggesting their limited utility. The purpose of this study was to evaluate the performance of 4 validated BRS for predicting MB and CRNMB. We conducted a retrospective, cohort study of consecutive patients enrolled in an academic OAT clinic between September 2008 and February 2011. Information regarding bleeding risk factors was collected for 4 BRS: Outpatient Bleeding Risk Index (OBRI; Beyth et al., Am J Med 1998), Contemporary Bleeding Risk Model (CBRM; Shireman et al., Chest 2006), HEMORR2HAGES (Gage et al. Am Heart J 2006), and HAS-BLED (Pisters et al., Chest 2010). Main outcomes were MB (Schulman J Thromb Haemost 2005) and a composite of MB + CRNMB (defined as overt bleeding that does not meet the criteria for MB but is associated with medical intervention, unscheduled contact, cessation of treatment, or associated with other discomfort (e.g. pain, impairment of daily activities). Incidence rates (IR) were calculated for each BRS and risk category. Correlation of bleeding risk categories among different BRS was assessed using the Kendall's tau-b coefficient. Predictive ability of each tool was evaluated using the C-statistic. Groups were compared using Fisher's exact, χ2, Mann-Whitney U, or Student's T tests. Hazard ratios (HR) for each score and risk category were estimated using Cox regression. We included 321 consecutive patients with a total follow-up of 319.2 patient-years. Mean age (SD) was 69.2 (13.6) years, 57% were males and 72.6% had AF. Overall IR for MB and MB + CRNMB were 3.7, and 11.2 events/100 patient-years, respectively. IRs for MB and MB + CRNMB separated by BRS and risk category are shown in Table 1 together with % of patients within each category. Overall, agreement among the 4 BRS was low to moderate with Kendall's tau-b coefficients ranging from 0.295 (OBRI vs CBRM) to 0.537 (HEMORR2HAGES vs HAS-BLED). C-statistics (95%CI) for predicting MB were 0.606 (0.435–0.777), 0.714 (0.548–0.879), 0.735 (0.583–0.886), and 0.672 (0.523–0.820), whereas those for predicting MB + CRNMB were 0.549 (0.452–0.645), 0.591 (0.489–0.692), 0.613 (0.517–0.709), and 0.587 (0.487–0.686) for OBRI, CBRM, HEMORR2HAGES and HAS-BLED, respectively. HRs for MB and MB + CRNMB are shown in Table 2. The best predictive ability for both MB and MB + CRNMB was for CBRM and HEMORR2HAGES. In conclusion, BRS classified bleeding risks differently. Predictive ability was moderate for MB and poor for MB + CRNMB. Overall, BRS are more helpful to identify patients at high bleeding risk, but they did not adequately identify patients at intermediate risk. Further studies assessing both MB and CRNMB are needed.

Table 1.

IR for bleeding events

Events/100 person-years (% patients in category)
Score/OutcomeRisk Category
MBLowIntermediateHigh
    OBRI 6.98 (16.2) 2.63 (69.8) 6.15 (14.0) 
    CBRM 1.76 (70.1) 6.62 (29.0) 79.00 (0.9) 
    HEMORR2HAGES 1.32 (48.9) 3.71 (41.1) 14.68 (10.0) 
    HAS-BLED 0 (10.3) 2.60 (60.1) 7.38 (29.6) 
MB + CRNMB    
    OBRI 9.34 11.97 14.68 
    CBRM 9.62 16.12 79.00 
    HEMORR2HAGES 8.20 14.06 20.94 
    HAS-BLED 9.87 9.07 18.91 
Events/100 person-years (% patients in category)
Score/OutcomeRisk Category
MBLowIntermediateHigh
    OBRI 6.98 (16.2) 2.63 (69.8) 6.15 (14.0) 
    CBRM 1.76 (70.1) 6.62 (29.0) 79.00 (0.9) 
    HEMORR2HAGES 1.32 (48.9) 3.71 (41.1) 14.68 (10.0) 
    HAS-BLED 0 (10.3) 2.60 (60.1) 7.38 (29.6) 
MB + CRNMB    
    OBRI 9.34 11.97 14.68 
    CBRM 9.62 16.12 79.00 
    HEMORR2HAGES 8.20 14.06 20.94 
    HAS-BLED 9.87 9.07 18.91 
Table 2.

HR for bleeding events

MBMB+CRNB
Bleeding Risk ScoreHR95% CIpHR95% CIp
OBRI       
    Low Ref Ref 0.278 Ref Ref 0.798 
    Intermediate 0.38 0.09–1.51 0.169 1.29 0.45–3.69 0.636 
    High 0.90 0.18–4.46 0.895 1.52 0.44–5.22 0.503 
CBRM       
    Low Ref Ref <0.001 Ref Ref 0.007 
    Intermediate 3.67 1.04–13.01 0.044 1.79 0.92–3.48 0.085 
    High 39.01 6.99–217.70 <0.001 8.71 2.02–37.52 0.004 
HEMORR2HAGES       
    Low Ref Ref 0.008 Ref Ref 0.110 
    Intermediate 2.77 0.54–14.28 0.224 1.80 0.88–3.72 0.110 
    High 10.94 2.12–56.42 0.004 2.54 1.00–6.46 0.050 
HAS-BLED       
    Low Ref Ref 0.212 Ref Ref 0.118 
    Intermediate NE NE 0.949 0.97 0.28–3.29 0.959 
    High NE NE 0.943 1.91 0.56–6.52 0.302 
MBMB+CRNB
Bleeding Risk ScoreHR95% CIpHR95% CIp
OBRI       
    Low Ref Ref 0.278 Ref Ref 0.798 
    Intermediate 0.38 0.09–1.51 0.169 1.29 0.45–3.69 0.636 
    High 0.90 0.18–4.46 0.895 1.52 0.44–5.22 0.503 
CBRM       
    Low Ref Ref <0.001 Ref Ref 0.007 
    Intermediate 3.67 1.04–13.01 0.044 1.79 0.92–3.48 0.085 
    High 39.01 6.99–217.70 <0.001 8.71 2.02–37.52 0.004 
HEMORR2HAGES       
    Low Ref Ref 0.008 Ref Ref 0.110 
    Intermediate 2.77 0.54–14.28 0.224 1.80 0.88–3.72 0.110 
    High 10.94 2.12–56.42 0.004 2.54 1.00–6.46 0.050 
HAS-BLED       
    Low Ref Ref 0.212 Ref Ref 0.118 
    Intermediate NE NE 0.949 0.97 0.28–3.29 0.959 
    High NE NE 0.943 1.91 0.56–6.52 0.302 

Disclosures:

Lazo-Langner:Pfizer Inc.: Honoraria; Leo Pharma: Honoraria.

Author notes

*

Asterisk with author names denotes non-ASH members.

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