Abstract
Platelet aggregation measured by impedance aggregometry is highly dependent on platelet count. We previously developed a tool to interpret impedance aggregometry based on the strong linear correlation between platelet counts and platelet aggregation at reduced platelet counts. The present study aimed to optimize the tool by expanding the model to include normal platelet counts. We combined data from three previous studies on 266 healthy individuals measuring impedance aggregometry with four agonists (collagen, adenosine diphosphate, thrombin receptor activating peptide-6, and ristocetin). Reduced platelet counts were established in vitro. The investigated platelet counts ranged from 26–425x109/L. A positive linear correlation was found between platelet counts and platelet aggregation across normal and reduced platelet counts (all p-values <0.001). We established 95% prediction intervals for healthy platelet aggregation in relation to platelet count. The new expanded model serves as an optimized tool for evaluation of platelet aggregation at normal and reduced platelet counts.
Acknowledgements
The authors would like to thank Bo Martin Bibby, Biostatistical Advisory Service, for statistical consultation, and Peter H. Nissen, Department of Clinical Biochemistry, Aarhus University Hospital, for participating in writing the manuscript.
Disclosure Statement
No authors have conflicts of interest regarding the present paper.
Statement Of Contribution
All authors contributed to the hypotheses and design of the study. ASL and OHL analysed data. All authors interpreted data. ASL wrote first draft, and all authors revised the manuscript.