Clinical Validation of a Novel High-Sensitivity Cardiac Troponin I Assay for Early Diagnosis of Acute Myocardial Infarction | Zendy

Jasper Boeddinghaus | Zendy; Raphael Twerenbold | Zendy; Thomas Nestelberger | Zendy; Patrick Badertscher | Zendy; Karin Wildi | Zendy; Christian Puelacher | Zendy; Jeanne du Fay de Lavallaz | Zendy; Elif Keser | Zendy; María Rubini Giménez | Zendy; Desiree Wussler | Zendy; Nikola Kozhuharov | Zendy; Katharina Rentsch | Zendy; Òscar Miró | Zendy; Francisco Javier MartínSánchez | Zendy; Beata Morawiec | Zendy; Sabrina Stefanelli | Zendy; Nicolas Geigy | Zendy; Dagmar I. Keller | Zendy; Tobias Reichlin | Zendy; Christian Mueller | Zendy; Ana Yufera Sanchez | Zendy; Tobias Breidthardt | Zendy; Deborah Mueller | Zendy; Lorraine Sazgary | Zendy; Stella Marbot | Zendy; Zaid Sabti | Zendy; Dayana Flores | Zendy; Riham Mahfouz | Zendy; Stefan Osswald | Zendy; Nicolas Schaerli | Zendy; Michael Freese | Zendy; Claudia Stelzig | Zendy; Kathrin Meissner | Zendy; Caroline Kulangara | Zendy; Samyut Shrestha | Zendy; Karin Grimm | Zendy; Beate Hartmann | Zendy; Ina Ferel | Zendy; Beatriz López | Zendy; Carolina Fuenzalida | Zendy; Esther Rodríguez Adrada | Zendy; Eva Ganovská | Zendy; Jens Lohrmann | Zendy; Wanda Kloos | Zendy; Andreas Buser | Zendy; Arnold von Eckardstein | Zendy; Piotr Muzyk | Zendy; Ewa Nowalany-Kozielska | Zendy; Damian Kawecki | Zendy; Jiří Pařenica | Zendy

Open Access

Clinical Validation of a Novel High-Sensitivity Cardiac Troponin I Assay for Early Diagnosis of Acute Myocardial Infarction

Author(s) -

Jasper Boeddinghaus,

Raphael Twerenbold,

Thomas Nestelberger,

Patrick Badertscher,

Karin Wildi,

Christian Puelacher,

Jeanne du Fay de Lavallaz,

Elif Keser,

María Rubini Giménez,

Desiree Wussler,

Nikola Kozhuharov,

Katharina Rentsch,

Òscar Miró,

Francisco Javier MartínSánchez,

Beata Morawiec,

Sabrina Stefanelli,

Nicolas Geigy,

Dagmar I. Keller,

Tobias Reichlin,

Christian Mueller,

Ana Yufera Sanchez,

Tobias Breidthardt,

Deborah Mueller,

Lorraine Sazgary,

Stella Marbot,

Zaid Sabti,

Dayana Flores,

Riham Mahfouz,

Stefan Osswald,

Nicolas Schaerli,

Michael Freese,

Claudia Stelzig,

Kathrin Meissner,

Caroline Kulangara,

Samyut Shrestha,

Karin Grimm,

Beate Hartmann,

Ina Ferel,

Beatriz López,

Carolina Fuenzalida,

Esther Rodríguez Adrada,

Eva Ganovská,

Jens Lohrmann,

Wanda Kloos,

Andreas Buser,

Arnold von Eckardstein,

Piotr Muzyk,

Ewa Nowalany-Kozielska,

Damian Kawecki,

Jiří Pařenica

Publication year - 2018

Publication title -

clinical chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.705

H-Index - 218

eISSN - 1530-8561

pISSN - 0009-9147

DOI - 10.1373/clinchem.2018.286906

Subject(s) - medicine , myocardial infarction , troponin i , roche diagnostics , siemens , nuclear medicine , physics , quantum mechanics

BACKGROUND Clinical performance of the novel high-sensitivity cardiac troponin I (Siemens-hs-cTnI-Centaur) assay is unknown. We aimed to clinically validate the Siemens-hs-cTnI-Centaur assay and develop 0/1-h and 0/2-h algorithms. METHODS We enrolled patients presenting to the emergency department with symptoms suggestive of acute myocardial infarction (AMI). Final diagnoses were centrally adjudicated by 2 independent cardiologists including all clinical information twice: first, using serial hs-cTnT (Roche-Elecsys, primary analysis); second, using hs-cTnI (Abbott-Architect, secondary analysis) measurements in addition to the clinically applied (hs)-cTn. Siemens-hs-cTnI-Centaur was measured at presentation, 1 h, and 2 h. The primary objective was a direct comparison of diagnostic accuracy, quantified by the area under the ROC curve (AUC), of Siemens-hs-cTnI-Centaur vs the 2 established hs-cTn assays (Roche-hs-cTnT-Elecsys, Abbott-hs-cTnI-Architect). Secondary objectives included the development of Siemens-hs-cTnI-Centaur-specific 0/1-h and 0/2-h algorithms. RESULTS AMI was the final diagnosis in 318 of 1755 (18%) patients (using Roche-hs-cTnT-Elecsys for adjudication). The AUC at presentation for Siemens-hs-cTnI-Centaur was 0.94 (95% CI, 0.92–0.96) and comparable with 0.95 (95% CI, 0.93–0.97) for Roche-hs-cTnT-Elecsys and 0.93 (95% CI, 0.90–0.96) for Abbott-hs-cTnI-Architect. Applying the derived Siemens-hs-cTnI-Centaur 0/1-h algorithm to the validation cohort, 46% of patients were ruled out (sensitivity, 99.1%; 95% CI, 95.3–100), and 18% of patients were ruled in (specificity, 94.1%; 95% CI, 91.8–95.9). The Siemens-hs-cTnI-Centaur 0/2-h algorithm ruled out 55% of patients (sensitivity, 100%; 95% CI, 94.1–100), and ruled in 18% of patients (specificity, 96.0%; 95% CI, 93.1–97.9). Findings were confirmed in the secondary analyses using serial measurements of Abbott-hs-cTnI-Architect for adjudication. CONCLUSIONS Diagnostic accuracy and clinical utility of the novel Siemens-hs-cTnI-Centaur assay are high and comparable with the established hs-cTn assays. ClinicalTrials.gov Identifier: NCT00470587

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