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Single-step immunoassays and microfluidic droplet operation: Towards a versatile approach for detection of amyloid-β peptide-based biomarkers of Alzheimer’s disease
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International audience. In this study, single-step magnetic-beads based immunoassays was developed and for the first time adapted to microfluidic droplet operation for sequential determination of well-established amyloid-β peptide biomarkers (i.e. monomeric Aβ 1–42 and Aβ 1–40) for molecular diagnosis of Alzheimer’s disease (AD). With the developed sandwich assay protocol, the capture antibodies (i.e. monoclonal anti-Aβ antibodies that are specific for N-terminus of Aβ 1–42 and Aβ 1–40) grafted onto magnetic beads and the detection antibodies (i.e. beta amyloid 1–16 monoclonal antibody labeled with horseradish peroxidase) can simultaneously bind to monomeric β peptides in a single step. Aβ 1–42 and Aβ 1–40 in cerebrospinal fluid (CSF) samples were successfully detected using the developed batchwise immunoassay approach. With the aim at expanding the spectrum of traced Aβ peptides beyond Aβ 1–42 and Aβ 1–40 for more precise diagnostics of AD, the developed sandwich assay was for the first time coupled as a downstream module to peptide fractionation and collection using capillary isoelectric focusing. Demonstration of this methodological combination was carried out with Aβ 1–40, Aβ 1–40 and Aβ 5–40. The immunoassay in batchwise format was downscaled into a purpose-made microfluidic droplet platform allowing significant sample volume reduction and higher throughput. Using a series of 4 programmable magnetic tweezers to manipulate a train of nano-scale confined droplets containing magnetic beads, sample, washing and detection solutions, a sequence of 8 analyses could be realized within 45 min. This droplet based immunoassay was realized in a dedicated platform integrating an in-house-made light emitting diode (LED)-based fluorescent detector, replacing conventional microscopic setup so as to significantly reduce the construction cost and simplify the detection protocol. Using this microfluidic configuration coupled with LED-based detection, information on both Aβ 1–42 and Aβ 1–40 concentrations can be collected in a single sequence with less than 1 μL of sample.
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