Comparison of cardiac TnI outliers using a contemporary and a high-sensitivity assay on the Abbott Architect platform

Ryan, Joshua; Southby, SJ; Stuart, LA; Mackay, Richard; Florkowski, C.M.; George, PM

doi:10.1177/0004563214534637

Cited by 16 publications

(30 citation statements)

References 8 publications

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“…The possibility of outliers owing to a random analytical failure or to sample-specific interference by heterophile or other antibody interference has been raised as a possible cause of falsely increased cardiac troponin (2 ). Our duplicate testing protocol with the Beckman Coulter assay eliminated the possibility of random outliers with this assay and the reported rates of these with the Roche cTnT (0.02%) and Abbott cTnI (0.18%) were too low to explain the discordance found (7,15 ). Although we did not systematically test all samples for heterophile antibody interference, we did exclude 1 sample that interfered with the Beckman Coulter assay.…”

Section: Discussionmentioning

confidence: 97%

Discordance with 3 Cardiac Troponin I and T Assays: Implications for the 99th Percentile Cutoff

2016

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Section: Discussionmentioning

confidence: 97%

Discordance with 3 Cardiac Troponin I and T Assays: Implications for the 99th Percentile Cutoff

2016

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“…In these cases the presence of macrotroponin was proven by a panel of investigations. False-positive cTnI immunoassay results may be caused by factors other than macrotroponin, including interfering antibodies, fibrin microclots, carryover, random error and haemolysis [29][30][31][32].…”

Section: Introductionmentioning

confidence: 99%

High incidence of macrotroponin I with a high-sensitivity troponin I assay

Warner

Marshall

2016

Clinical Chemistry and Laboratory Medicine (CCLM)

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Background:Cardiac troponin is the preferred biomarker of myocardial injury. High-sensitivity troponin assays allow measurement of very low levels of troponin with excellent precision. After the introduction of a high-sensitivity troponin I assay the laboratory began to receive enquiries from clinicians about clinically discordant elevated troponin I results. This led to a systematic investigation and characterisation of the cause.Methods:Routine clinical samples were measured by the Architect High Sensitive Troponin-I (hsTnI) and the VITROS Troponin I ES assays (VitrosTnI). Results that were elevated according to the Architect but not the VITROS assay (Group 1) or results elevated by both assays but disproportionately higher on the Architect (Group 2) were re-analysed for hsTnI after re-centrifugation, multiple dilutions, incubation with heterophilic blocking reagents, polyethylene glycol (PEG) precipitation, and Protein A/G/L treatment. Sephacryl S-300 HR gel filtration chromatography (GFC) was performed on selected specimens.Results:A high molecular weight complex containing immunoreactive troponin I and immunoglobulin (macrotroponin I) was identified in 5% of patients with elevated hsTnI. Patients with both macrotroponin and myocardial injury had higher and longer elevation of hsTnI compared with VitrosTnI with peaks of both macrotroponin and free troponin I-C complex on GFC.Conclusions:Circulating macrotroponin I (macroTnI) causes elevated hsTnI results with the Architect High Sensitive Troponin-I assay with the potential to be clinically misleading. The assay involved in this investigation may not be the only assay affected by macrotroponin. It is important for laboratories and clinicians to be aware of and develop processes to identify and manage specimens with elevated results due to macrotroponin.

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“…Outliers are differently defined in the literature and their frequencies are reported by various approaches ( 1 , 2 , 4 , 5 , 16 - 19 , 23 - 26 ). Additionally, what is perceived as an outlier may vary depending on the analyte or diagnosis ( 2 , 4 , 16 - 19 , 24 , 27 ).…”

Section: Introductionmentioning

confidence: 99%

Analytical robustness of nine common assays: frequency of outliers and extreme differences identified by a large number of duplicate measurements

et al. 2017

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IntroductionDuplicate measurements can be used to describe the performance and analytical robustness of assays and to identify outliers. We performed about 235,000 duplicate measurements of nine routinely measured quantities and evaluated the observed differences between the replicates to develop new markers for analytical performance and robustness.Materials and methodsCatalytic activity concentrations of aspartate aminotransferase (AST), alanine aminotransferase (ALT), and concentrations of calcium, cholesterol, creatinine, C-reactive protein (CRP), lactate, triglycerides and thyroid-stimulating hormone (TSH) in 237,261 patient plasma samples were measured in replicates using routine methods. The performance of duplicate measurements was evaluated in scatterplots with a variable and symmetrical zone of acceptance (A-zone) around the equal line. Two quality markers were established: 1) AZ95: the width of an A-zone at which 95% of all duplicate measurements were within this zone; and 2) OPM (outliers per mille): the relative number of outliers if an A-zone width of 5% was applied.ResultsThe AZ95 ranges from 3.2% for calcium to 11.5% for CRP and the OPM from 5 (calcium) to 250 (creatinine). Calcium, TSH and cholesterol have an AZ95 of less than 5% and an OPM of less than 50.ConclusionsDuplicate measurements of a large number of patient samples identify even low frequencies of extreme differences and thereof defined outliers. We suggest two additional quality markers, AZ95 and OPM, to complement description of assay performance and robustness. This approach can aid the selection process of measurement procedures in view of clinical needs.

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Comparison of cardiac TnI outliers using a contemporary and a high-sensitivity assay on the Abbott Architect platform

Cited by 16 publications

References 8 publications

Discordance with 3 Cardiac Troponin I and T Assays: Implications for the 99th Percentile Cutoff

Discordance with 3 Cardiac Troponin I and T Assays: Implications for the 99th Percentile Cutoff

High incidence of macrotroponin I with a high-sensitivity troponin I assay

Analytical robustness of nine common assays: frequency of outliers and extreme differences identified by a large number of duplicate measurements

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