World-to-Digital-Microfluidic Interface Enabling Extraction and Purification of RNA from Human Whole Blood

Digital microfluidics (DMF) is a powerful technique for simple and precise manipulation of microscale droplets of fluid. This technique enables processing and analysis of a wide variety of samples and reagents and has proven useful in a broad range of chemical, biological, and medical applications. Handling of “real-world” samples has been a challenge, however, because typically their volumes are greater than those easily accommodated by DMF devices and contain analytes of interest at low concentration. To address this challenge, we have developed a novel “world-to-DMF” interface in which an integrated companion module drives the large-volume sample through a 10 μL droplet region on the DMF device, enabling magnet-mediated recovery of bead-bound analytes onto the device as they pass through the region. To demonstrate its utility, we use this system for extraction of RNA from human whole blood lysates (110–380 μL) and further purification in microscale volumes (5–15 μL) on the DMF device itself. Processing...