Integration of Acoustic Liquid Handling into Quantitative Analysis of Biological Matrix Samples

Acoustic liquid handlers deliver small volumes (nL-µL) of multiple fluid types with accuracy and dynamic viscosity profiling. They are widely used in the pharmaceutical industry with applications extending from high-throughput screening in compound management to gene expression sequencing, genomic a...

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Veröffentlicht in:	SLAS technology 2020-10, Vol.25 (5), p.463-473
Hauptverfasser:	Wang, Linna, Dalglish, Gerard, Ouyang, Zheng, David-Brown, Donata Gloria, Chiriac, Camelia, Duo, Jia, Kozhich, Alexander, Ji, Qin C., Peterson, Jon E.
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container_title	SLAS technology
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creator	Wang, Linna Dalglish, Gerard Ouyang, Zheng David-Brown, Donata Gloria Chiriac, Camelia Duo, Jia Kozhich, Alexander Ji, Qin C. Peterson, Jon E.
description	Acoustic liquid handlers deliver small volumes (nL-µL) of multiple fluid types with accuracy and dynamic viscosity profiling. They are widely used in the pharmaceutical industry with applications extending from high-throughput screening in compound management to gene expression sequencing, genomic and epigenetic assays, and cell-based assays. The capability of the Echo to transfer small volumes of multiple types of fluids could benefit bioanalysis assays by minimization of sample volume and by simplifying dilution procedures by direct dilution. In this study, we evaluated the Labcyte Echo 525 liquid handler for its ability to deliver small volumes of sample preparations in biological matrix (plasma and serum) and to assess the feasibility of integration of the Echo with three types of bioanalytical assay platforms: microplate enzyme-linked immunosorbent assay, Gyrolab immunoassay, and liquid chromatography with tandem mass spectrometry. The results demonstrated acceptable consistency of dispensed plasma samples from multiple lots and species by the Echo. Equivalent assay performance demonstrated between the Echo and manual liquid procedures indicated great potential for the integration of the Echo with the bioanalytical assay, which allows the successful implementation of microsampling strategies in drug discovery and development.
doi_str_mv	10.1177/2472630320915844
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title	Integration of Acoustic Liquid Handling into Quantitative Analysis of Biological Matrix Samples
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