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A Multiplexed Microfluidic Platform for Bone Marker Measurement: A Proof-Of-Concept Publisher



Khashayar P1, 2, 3 ; Amoabediny G4, 5 ; Larijani B6 ; Hosseini M1 ; Verplancke R2 ; Schaubroeck D2 ; Put SV2 ; Razi F7 ; Keersmaecker MD8 ; Adriaens A8 ; Goemaere S9 ; Fiers T9
Authors

Source: Micromachines Published:2017


Abstract

In this work, we report a microfluidic platform that can be easily translated into a biomarker diagnostic. This platform integrates microfluidic technology with electrochemical sensing and embodies a reaction/detection chamber to measure serum levels of different biomarkers. Microfabricated Au electrodes encased in a microfluidic chamber are functionalized to immobilize the antibodies, which can selectively capture the corresponding antigen. An oxidative peak is obtained using the chronoamperometry technique at room temperature. The magnitude of the response current varies linearly with the logarithmic concentration of the relative biomarker and, thus, is used to quantify the concentration of the relative biomarker in serum samples. We demonstrated the implementation, feasibility and specificity of this platform (Osteokit) in assaying serum levels of bone turnover markers (BTMs) using osteocalcin (limits of detection (LOD) = 1.94 ng/mL) and collagen type 1 cross-linked C-telopeptide (CTX) (LOD = 1.39 pg/mL). To our knowledge, this is the first such device fabricated to measure BTMs. Our results also showed that the sensitivity of Osteokit is comparable with the current states of art, electrochemiluminescence (ECLIA). © 2017 by the authors.
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