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Journal of clinical medicine
Sep 24, 2020;9 (10):

Comparative Analysis of Thrombin Calibration Algorithms and Correction for Thrombin-α2macroglobulin Activity.

William C Chang, Joseph W Jackson, Kellie R Machlus, Alisa S Wolberg, Mikhail V Ovanesov
Author Information
  1. William C Chang: Center for Biologics Evaluation and Research, U.S. Food and Drug Administration, Silver Spring, MD 20993, USA. ORCID
  2. Joseph W Jackson: Center for Biologics Evaluation and Research, U.S. Food and Drug Administration, Silver Spring, MD 20993, USA.
  3. Kellie R Machlus: Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA. ORCID
  4. Alisa S Wolberg: Department of Pathology and Laboratory Medicine and UNC Blood Research Center, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA. ORCID
  5. Mikhail V Ovanesov: Center for Biologics Evaluation and Research, U.S. Food and Drug Administration, Silver Spring, MD 20993, USA.
PMID: 32987791 DOI: 10.3390/jcm9103077

Abstract

BACKGROUND: The thrombin generation (TG) test is useful for characterizing global hemostasis potential, but fluorescence substrate artifacts, such as thrombin-α2macroglobulin (T-α2MG) signal, inner filter effect (IFE), substrate consumption, and calibration algorithms have been suggested as sources of intra- and inter-laboratory variance, which may limit its clinical utility.
METHODS: Effects of internal vs. external normalization, IFE and T-α2MG on TG curves in normal plasma supplemented with coagulation factors, thrombomodulin, and tissue factor were studied using the Calibrated Automated Thrombinography (CAT; Diagnostica Stago, Parsippany, NJ, USA) and in-house software.
RESULTS: The various calibration methods demonstrated no significant difference in producing TG curves, nor increased the robustness of the TG assay. Several TG parameters, including thrombin peak height (TPH), produced from internal linear calibration did not differ significantly from uncalibrated TG parameters. Further, TPH values from internal linear and nonlinear calibration with or without T-α2MG correction correlated well with TPH from external calibration. Higher coefficients of variation (CVs) for TPH values were observed in both platelet-free and platelet-rich plasma with added thrombomodulin.
CONCLUSIONS: Our work suggests minimal differences between distinct computational approaches toward calibrating and correcting fluorescence signals into TG levels, with most samples returning similar or equivalent TPH results.

Keywords

blood coagulation factors blood coagulation tests calibration plasma thrombin

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Grants

  1. R01 HL126974/NHLBI NIH HHS
Journal Article

Word Cloud

Created with Highcharts 10.0.0TGcalibrationTPHthrombinT-α2MGinternalplasmacoagulationfluorescencesubstrateIFEexternalcurvesfactorsthrombomodulinparameterslinearvaluesbloodBACKGROUND:generationtestusefulcharacterizingglobalhemostasispotentialartifactsthrombin-α2macroglobulinsignalinnerfiltereffectconsumptionalgorithmssuggestedsourcesintra-inter-laboratoryvariancemaylimitclinicalutilityMETHODS:EffectsvsnormalizationnormalsupplementedtissuefactorstudiedusingCalibratedAutomatedThrombinographyCATDiagnosticaStagoParsippanyNJUSAin-housesoftwareRESULTS:variousmethodsdemonstratedsignificantdifferenceproducingincreasedrobustnessassaySeveralincludingpeakheightproduceddiffersignificantlyuncalibratednonlinearwithoutcorrectioncorrelatedwellHighercoefficientsvariationCVsobservedplatelet-freeplatelet-richaddedCONCLUSIONS:worksuggestsminimaldifferencesdistinctcomputationalapproachestowardcalibratingcorrectingsignalslevelssamplesreturningsimilarequivalentresultsComparativeAnalysisThrombinCalibrationAlgorithmsCorrectionThrombin-α2macroglobulinActivitytests

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