Development of Plastic Microfluidic Devices for Sample Preparation

Microfluidics technology shows excellent potential for applications in biotechnology, chemical sensing, and drug delivery. The use of microfluidics results in cycle time reduction, reagent cost and labor intensity savings due to the benefits of miniaturization, and functional integration. As a result, miniature DNA sample preparation and analytical devices may potentially become part of a point-of-care systems for rapid medical diagnoses. Similar diagnostic devices will benefit veterinary and food safety applications. In this paper, we discuss design, fabrication, and testing of plastic microfluidic devices for on-chip genetic sample preparation. These fabrication methods are being used to produce components of a complete genetic sample preparation micro-system. The detailed discussion on the development of micro-PCR (polymerase chain reaction) devices and bio-channel hybridization arrays is given. We also describe a path to further individual component integration.