Microfluidic Biosensor for the Serotype-Specific Detection of Dengue Virus RNA

Abstract

The development of a microfluidic biosensor with fluorescence detection for the rapid, sensitive, and serotype-specific detection of Dengue virus is presented. The biosensor chip consists of poly(dimethylsiloxane) (PDMS) substrate with fabricated microchannels and a glass substrate used to seal the microchannels. These two substrates are packaged within a pressure-closed Plexiglas housing to provide a watertight reversible sealing at the PDMS−glass interface. The ability to reversibly seal the device permits easy disassembly and quick interchange of the device parts, which is ideal for developmental purposes. The biosensor employs a magnetic bead-based sandwich hybridization system in conjugation with liposome amplification for the specific detection of nucleic acids. The concentrations of the various biosensor components were optimized using a synthesized fragment of Dengue virus RNA. To evaluate the sensitivity of the assay, two detection systems, based on fluorescence measurements of intact and lysed liposomes, were analyzed. The entire analysis was complete within 20 min (including incubation time) with RNA detection limits of 0.125 nM and 50 pM for intact and lysed liposome detection systems, respectively. Subsequently, the biosensor was applied to the analysis of actual RNA obtained from Dengue virus serotypes 1−4. The resulting signals were compared to those obtained using standard electrochemiluminescence detection and shown to correspond perfectly with respect to serotype identification.