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Bosmans, Hilde ; Zhao, Wei ; Yu, Lifeng (Ed.)
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Link, Kathryn G. ; Stobb, Michael T. ; Monroe, Dougald M. ; Fogelson, Aaron L. ; Neeves, Keith B. ; Sindi, Suzanne S. ; Leiderman, Karin ( , Arteriosclerosis, Thrombosis, and Vascular Biology)null (Ed.)Bleeding frequency and severity within clinical categories of hemophilia A are highly variable and the origin of this variation is unknown. Solving this mystery in coagulation requires the generation and analysis of large data sets comprised of experimental outputs or patient samples, both of which are subject to limited availability. In this review, we describe how a computationally driven approach bypasses such limitations by generating large synthetic patient data sets. These data sets were created with a mechanistic mathematical model, by varying the model inputs, clotting factor, and inhibitor concentrations, within normal physiological ranges. Specific mathematical metrics were chosen from the model output, used as a surrogate measure for bleeding severity, and statistically analyzed for further exploration and hypothesis generation. We highlight results from our recent study that employed this computationally driven approach to identify FV (factor V) as a key modifier of thrombin generation in mild to moderate hemophilia A, which was confirmed with complementary experimental assays. The mathematical model was used further to propose a potential mechanism for these observations whereby thrombin generation is rescued in FVIII-deficient plasma due to reduced substrate competition between FV and FVIII for FXa.more » « less
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Link, Kathryn G. ; Stobb, Michael T. ; Sorrells, Matthew G. ; Bortot, Maria ; Ruegg, Katherine ; Manco‐Johnson, Marilyn J. ; Di Paola, Jorge A. ; Sindi, Suzanne S. ; Fogelson, Aaron L. ; Leiderman, Karin ; et al ( , Journal of Thrombosis and Haemostasis)