ORIGINAL ARTICLE: Development of non-agglutination microarray blood grouping

Microarray technology provides an opportunity to monitor multiple parameters simultaneously. High-throughput applications such as blood donation screening could greatly benefit from performing various tests on a single testing platform. Blood grouping represents one part of the donation testing comp...

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Bibliographic Details
Published in:Transfusion medicine (Oxford, England) England), 2006-04, Vol.16 (2), p.119-129
Main Authors: Robb, J S, Roy, D J, Ghazal, P, Allan, J, Petrik, J
Format: Article
Language:English
Online Access:Get full text
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Summary:Microarray technology provides an opportunity to monitor multiple parameters simultaneously. High-throughput applications such as blood donation screening could greatly benefit from performing various tests on a single testing platform. Blood grouping represents one part of the donation testing complementing the screening for blood-borne pathogens. Blood group serology traditionally exploited agglutination as the detection method. In this investigation, we have adapted blood grouping reactions to a solid-phase microarray substrate in a non-agglutination reaction format as an initial step in the development of a combined microarray testing platform. We have investigated immobilization of proprietary antibodies on multiple surfaces and monitored their performance under various reaction conditions. For the first time, highly specific blood grouping has been achieved on a planar microarray using directly labelled erythrocytes or a secondary labelled reagent using fluorescent signal end point readout. We have also complemented microarray data with a label-free, surface plasmon resonance-based Biacore platform data and used the real time quantitative measurement to rank anti-A antibodies according to the strength of reaction with the immobilized synthetic blood group antigen A.
ISSN:0958-7578
1365-3148
DOI:10.1111/j.1365-3148.2005.00628.x