Ultrasensitive flow-based immunoassays using single-molecule counting
J Todd, B Freese, A Lu, D Held, J Morey… - Clinical …, 2007 - academic.oup.com
J Todd, B Freese, A Lu, D Held, J Morey, R Livingston, P Goix
Clinical chemistry, 2007•academic.oup.comBackground: Immunoassay (IA) technology has expanded the clinical utility of protein
biomarkers, but demands for increased sensitivity, dynamic reporting ranges, and small
sample volumes have limited the potential clinical usefulness of many biomarkers. We
assessed the performance, including limits of detection (LODs) and the dynamic reporting
range, of an IA-based technology, Erenna Immunoassay System, for a series of biomarkers,
including cardiac troponin I (cTnI). Methods: Erenna IAs were used with 10 different and …
biomarkers, but demands for increased sensitivity, dynamic reporting ranges, and small
sample volumes have limited the potential clinical usefulness of many biomarkers. We
assessed the performance, including limits of detection (LODs) and the dynamic reporting
range, of an IA-based technology, Erenna Immunoassay System, for a series of biomarkers,
including cardiac troponin I (cTnI). Methods: Erenna IAs were used with 10 different and …
Abstract
Background: Immunoassay (IA) technology has expanded the clinical utility of protein biomarkers, but demands for increased sensitivity, dynamic reporting ranges, and small sample volumes have limited the potential clinical usefulness of many biomarkers. We assessed the performance, including limits of detection (LODs) and the dynamic reporting range, of an IA-based technology, Erenna Immunoassay System, for a series of biomarkers, including cardiac troponin I (cTnI).
Methods: Erenna IAs were used with 10 different and clinically important biomarkers to ascertain the LOD with various sample sizes (10 μL to 200 μL).
Results: The Erenna Immunoassay System generated LODs of 10–100 pg/L using 100 μL of sample. For cTnI, the LOD was 0.2 ng/L and a 10% CV was seen between 0.78 and 1.6 ng/L.
Conclusions: The Erenna IA-based technology reproducibly measures protein biomarkers with detection limits of 10–100 pg/L, with a dynamic range of >4.5 logs in sample volumes of 50–150 μL.
Oxford University Press