Fluorescence artifact correction in the thrombin generation assay: Necessity for correction algorithms in procoagulant samples

Introduction The thrombin generation (TG) test is a global hemostasis assay sensitive to procoagulant conditions. However, some TG assays may underestimate elevated TG when the thrombin fluorogenic substrate is depleted or fluorescence is attenuated by the inner filter effect (IFE). Objectives We sought to elucidate the extent to which procoagulant conditions require correcting for fluorogenic substrate depletion and/or IFE. Methods We analyzed corrections for substrate depletion and IFE and their effect on TG parameters in plasma samples with elevated blood coagulation factors in the presence or absence of thrombomodulin via commercial calibrated automated thrombogram (CAT) platform and in‐house software capable of internal thrombin calibration with or without CAT‐like artifact correction. Results Elevated thrombin peak height (TPH) and endogenous thrombin potential (ETP) were detected with 2× and 4× increases in blood coagulation factors I, V, VIII, IX, X, and XI, or prothrombin in the presence or absence of artifact correction. The effect of the CAT algorithm was evident in TG curves from both low procoagulant (thrombomodulin‐supplemented) and procoagulant (factor‐supplemented) plasma samples. However, in all samples, with the exception of elevated prothrombin, CAT’s correction was small (