A Standard Operating Procedure for Assessing Liquid Handler Performance in High-Throughput Screening

The thrust of early drug discovery in recent years has been toward the configuration of homogeneous miniaturized assays. This has allowed organizations to contain costs in the face of exponential increases in the number of screening assays that need to be run to remain competitive. Miniaturization b...

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Veröffentlicht in:	Journal of biomolecular screening 2002-12, Vol.7 (6), p.554-569
Hauptverfasser:	Taylor, Paul B., Ashman, Stephen, Baddeley, Stuart M., Bartram, Stacy L., Battle, Clive D., Bond, Brian C., Clements, Yvonne M., Gaul, Nathan J., McAllister, W. Elliot, Mostacero, Juan A., Ramon, Fernando, Wilson, Jamie M., Hertzberg, Robert P., Pope, Andrew J., Macarron, Ricardo
Format:	Artikel
Sprache:	eng
Schlagworte:	Combinatorial Chemistry Techniques - instrumentation Combinatorial Chemistry Techniques - standards Data Interpretation, Statistical Microchemistry - instrumentation Microchemistry - standards Needles Quality Control Stainless Steel
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creator	Taylor, Paul B. Ashman, Stephen Baddeley, Stuart M. Bartram, Stacy L. Battle, Clive D. Bond, Brian C. Clements, Yvonne M. Gaul, Nathan J. McAllister, W. Elliot Mostacero, Juan A. Ramon, Fernando Wilson, Jamie M. Hertzberg, Robert P. Pope, Andrew J. Macarron, Ricardo
description	The thrust of early drug discovery in recent years has been toward the configuration of homogeneous miniaturized assays. This has allowed organizations to contain costs in the face of exponential increases in the number of screening assays that need to be run to remain competitive. Miniaturization brings with it an increasing dependence on instrumentation, which over the past several years has seen the development of nanodispensing capability and sophisticated detection strategies. To maintain confidence in the data generated from miniaturized assays, it is critical to ensure that both compounds and reagents have been delivered as expected to the target wells. The authors have developed a standard operating procedure for liquid-handling quality control that has enabled them to evaluate performance on 2 levels. The first level provides for routine daily testing on existing instrumentation, and the second allows for more rigorous testing of new dispensing technologies. The procedure has shown itself to be useful in identifying both method programming and instrumentation performance shortcomings and has provided a means to harmonizing instrumentation usage by assay development and screening groups. The goal is that this type of procedure be used for facilitating the exchange of liquid handler performance data across the industry.
doi_str_mv	10.1177/1087057102238630
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To maintain confidence in the data generated from miniaturized assays, it is critical to ensure that both compounds and reagents have been delivered as expected to the target wells. The authors have developed a standard operating procedure for liquid-handling quality control that has enabled them to evaluate performance on 2 levels. The first level provides for routine daily testing on existing instrumentation, and the second allows for more rigorous testing of new dispensing technologies. The procedure has shown itself to be useful in identifying both method programming and instrumentation performance shortcomings and has provided a means to harmonizing instrumentation usage by assay development and screening groups. 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subjects	Combinatorial Chemistry Techniques - instrumentation Combinatorial Chemistry Techniques - standards Data Interpretation, Statistical Microchemistry - instrumentation Microchemistry - standards Needles Quality Control Stainless Steel
title	A Standard Operating Procedure for Assessing Liquid Handler Performance in High-Throughput Screening
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