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Evaluating the performance of an updated high-sensitivity troponin T assay with increased tolerance to biotin

Alexander Meyer, Gesa I. Albert, Stefan Kunzelmann, Christopher M. Rank, Rainer Zerback, Roland Imdahl

2020Clinical Chemistry and Laboratory Medicine (CCLM)13 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Troponin T-high sensitive assay (cTnT-hs; Roche Diagnostics International Ltd). We evaluated the performance of an updated assay, cTnT-hs*, which was designed to reduce biotin interference. METHODS: cTnT-hs* assay performance was assessed using up to two applications (18 min/9 min) on three analyzers (cobas e 411/cobas e 601/cobas e 801). Biotin interference was determined by measuring recovery in an 11-sample series dilution with biotin ranging from 0-3600 ng/mL. Repeatability/reproducibility were evaluated in five serum sample pools (n=75 each). Method comparisons tested: cTnT-hs* vs. cTnT-hs (18 min/cobas e 601); cTnT-hs* assay 18 vs. 9 min (cobas e 601); cTnT-hs* (18 min) on cobas e 601 vs. cobas e 411 and cobas e 601 vs. cobas e 801. Concordance at the 99th percentile decision limit between cTnT-hs* and cTnT-hs (9 min/cobas e 601) was calculated using 300 lithium-heparin plasma samples and a 14 ng/L assay cutoff. RESULTS: cTnT-hs* assay (18 min/cobas e 601) recovery was ≥96% for biotin ≤1250 ng/mL. Across all applications/analyzers, coefficients of variation for repeatability/reproducibility with the cTnT-hs* assay were <5% in most serum sample pools (mean cardiac troponin T: 8.528-9484 ng/L). High correlation (Pearson's r=1.000) was demonstrated for all method comparisons. Concordance at the 99th percentile decision limit was high between the cTnT-hs* and cTnT-hs assays. CONCLUSIONS: The updated cTnT-hs* assay may provide greater tolerance to biotin interference, and shows good analytical and clinical agreement/concordance with the previous cTnT-hs assay.

Topics & Concepts

Troponin complexRoche DiagnosticsRepeatabilityTroponin TDetection limitReproducibilityChemistryChromatographyMedicineInternal medicineTroponinMyocardial infarctionAcute Myocardial Infarction ResearchBiotin and Related StudiesAdvanced Biosensing Techniques and Applications
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