Sensitive and reproducible detection of cardiac troponin I in human plasma using a surface acoustic wave immunosensor

We present a sensitive and reproducible surface acoustic wave (SAW) immunosensor that uses an internal reference sensor. A sandwich immunoassay was performed on the working sensing area of the SAW sensor that is able to specifically capture and detect cardiac troponin I (cTnI), while an immunoassay...

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Published inSensors and actuators. B, Chemical Vol. 178; pp. 19 - 25
Main Authors Lee, Joonhyung, Lee, Yeolho, Park, Jin-Young, Seo, Hyejung, Lee, Taehan, Lee, Woochang, Kim, Sang Kyu, Hahn, Young Ki, Jung, Jae yeon, Kim, Sunkook, Choi, Youn-Suk, Lee, Soo Suk
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2013
Subjects
acoustics
antibody detection
Biosensor
Cardiac troponin I
correlation
gold
Gold staining
humans
immunoassays
immunoglobulin G
immunosensors
Internal reference
nanogold
patients
rabbits
Surface acoustic wave
Cardiac troponin I
Surface acoustic wave
Internal reference
Biosensor
Gold staining
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Summary:We present a sensitive and reproducible surface acoustic wave (SAW) immunosensor that uses an internal reference sensor. A sandwich immunoassay was performed on the working sensing area of the SAW sensor that is able to specifically capture and detect cardiac troponin I (cTnI), while an immunoassay comprising rabbit IgG and anti-rabbit IgG was carried out on the reference sensing area. The analyte in human plasma was captured on gold nanoparticles (AuNPs) that were conjugated in advance with detection antibody. Introduction of these complexes as well as AuNPs conjugated with anti-rabbit IgG into the capture antibody-immobilized working sensor surface and its adjacent rabbit IgG-immobilized reference sensor surface resulted in a classic AuNP-based immunoassay format on both sensing areas. In order to achieve signal enhancement, a gold staining method was performed. Normalized sensor response (a ratio of working sensor response to reference sensor response) due to gold staining varied as a function of applied cTnI concentration. Furthermore, introduction of the internal reference sensor with the normalization technique reduced the coefficient of variation (CV) of the assay by a factor of 4–12, improving reproducibility of the SAW immunosensor. To validate the accuracy of the SAW system, correlation with a commercial system (Centaur®XP, Siemens) was investigated using the plasma of 21 patients and exhibited good agreement with a correlation coefficient (r) of 0.986 and a slope of 0.8 for SAW/Centaur®XP.
Bibliography:http://dx.doi.org/10.1016/j.snb.2012.11.082
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2012.11.082