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Abstract
Miniaturized screening devices (MSDs) are an emerging technology with a variety of possible applications e.g., detection of diseases, analysis of antibiotics or illicit drugs. MSDs include a variety of different working principles and components. They are generally referred to in the literature as biochips, nanochips, micro-arrays, µTas systems and high throughput screening devices. They consist of a miniaturized device or ‘chip’ with different probes immobilized on the surface that may carry out multiplex analysis (i.e., detection of genes, proteins, illicit or novel drugs etc.,). Such a device is envisaged to be fully autonomous, incorporating micro-fluidics and appropriate means of signal transduction. The vast majority of MSDs that have been developed, to date, are based on DNA probes. DNA-based arrays have been generated to analyse genomes, detect diseases e.g., cancer, and cellular responses to various stimuli e.g., carcinogens, at the genetic level. MSDs may provide a relatively inexpensive, rapid and user-friendly method of diagnosis. However, there is an increasing shift in research toward proteomic analysis, yielding MSDs that incorporate protein probes e.g., antibodies, for the detection of a much wider range of compounds. The specificity and relative ease of production of antibodies facilitate their use as ideal probes for the development of the ‘lab on a chip’ or µTas system. In this review, particular emphasis will be on optical based MSDs with antibody probes and their future application in the developing fields of point-of-care testing (POCT), µTas systems and high throughput screening (HTS). There are further sub-divisions of this nomenclature depending on the biological components or probes they may contain and the method of signal transduction that they utilize.
Acknowledgment
We gratefully acknowledge the support of the Enterprise Ireland and the Higher Education Authority (HEA) Programme for Research in Third Level Institutions (PRTLI) Cycle One.