Abstract
ObjectiveAspirin is a widely used platelet inhibitor to prevent thrombotic events. However, in 25% of patients the antiplatelet effect is insufficient. The current study aimed to validate a newly developed PDW-miR92a-score as a biomarker of the individual response to aspirin enabling targeted antithrombotic therapy. MethodsBlood samples were collected from 209 patients with intermittent claudication on daily aspirin therapy. Based on results from the arachidonic acid stimulated aggregation test, patients were defined as aspirin resistant (n = 92) or responders (n = 117). Using the cut-off values for platelet distribution width (PDW) and plasma levels of microRNA-92a (miR-92a) defined in our pilot study, we investigated the performance of the combined PDW-miR92a-score in the validation study. Furthermore, receiver operating characteristic curve analysis was performed in the validation cohort in order to optimize the cut-off values of the two score parameters. ResultsPDW and miR-92a levels were significantly higher in aspirin resistant compared to responding patients. When using the predefined cut-off values for PDW and miR-92a the combined PDW-miR92a score showed high specificity (93.1%) but poor sensitivity (19.8%) for aspirin resistance. By recalculation using new cut-off values identified in the validation cohort, a score with a specificity of 75% and a sensitivity of 54.9% was obtained. ConclusionBoth PDW and plasma levels of miR-92a were confirmed to be significantly higher in aspirin resistant compared to responding patients in our validation cohort. We were, however, unable to confirm the high sensitivity of the combined PDW-miR92a-score previously published by our group in a pilot study.
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