Background: Heparin induced thrombocytopenia (HIT) is a potentially life threatening complication of heparin administration caused by antibodies directed to the heparin-platelet factor 4 (PF4) complex and characterized by thrombocytopenia with a seemingly paradoxical high risk of thrombosis. Diagnosis is challenging, and is based on both clinical suspicion and laboratory detection of heparin-PF4 antibodies. The Warkentin 4 T’s “pre-test” probability and Chong’s “post-test” probability models have been developed to aid the diagnosis of HIT. Enzyme-linked immunoabosorbant assay (ELISA) laboratory measurement of heparin-PF4 antibodies is commonly used but has a low positive predictive value for thrombosis. Recent reports suggest that using an ELISA optical density (OD) value of ≥ 1 may improve the predictive value for thrombosis.

Methods: We performed a retrospective analysis of 105 patients with suspected HIT who were treated with a direct thrombin inhibitor and evaluated the anti-heparin-PF4 ELISA OD values and Warkentin 4 T’s scores for sensitivity, specificity, and positive and negative predictive values (PPV and NPV, respectively) using the Chong’s score to define HITBoth the manufacturer’s OD threshold of 0.4 and ≥ 1 were evaluated.

Table 1.

Comparison of sensitivity, specificity, and predictive values for 4 T’s and OD levels, alone and in combination

Sensitivity (%)Specificity (%)NPV (%)PPV (%)
For calculations, Chong’s categories of definite/probable and unlikely were used to define presence or absence of HIT. 
4T’s score (high and low) 81 100 80 100 
OD level 0.4 69 75 65 78 
OD level ≥1 38 85 52 77 
4T’s + OD 0.4 94 100 94 100 
4T’s +OD ≥1 69 85 81 75 
Sensitivity (%)Specificity (%)NPV (%)PPV (%)
For calculations, Chong’s categories of definite/probable and unlikely were used to define presence or absence of HIT. 
4T’s score (high and low) 81 100 80 100 
OD level 0.4 69 75 65 78 
OD level ≥1 38 85 52 77 
4T’s + OD 0.4 94 100 94 100 
4T’s +OD ≥1 69 85 81 75 

Results:

The sensitivity, specificity and predictive value of ELISA alone were inferior to the 4 T’s clinical scorings system. The sensitivity and negative predictive values of the 4T’s score were improved by considering positive or negative ELISA test results.

Conclusions: Consistent with previous reports, the PPV of a high probability 4T score alone was 100%. Thus, ELISA results might not change clinical decisions in this situation. Alternative anticoagulation might be inappropriately withheld in 20% of patients if a low probability 4T score alone were to be used for decision-making. The addition of ELISA data using an OD level of 0.4 increased the NPV to a threshold that might be considered clinically acceptable (94%) to withhold therapy. Addition of an OD level of ≥ 1 did not improve the PV of the 4 T’s. However, in contrast to other studies that found better predictive value to using this higher OD threshold, our study group was limited to people considered high risk for HIT. Validation of this strategy in a prospective trial with clinical endpoints should be considered.

Disclosure: No relevant conflicts of interest to declare.

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