Research Project
9986044
Abstract Combinati is looking to bring an integrated Array Imaging digital PCR platform with injection molded microfluidic consumables from lab to marketplace to accelerate the adoption of dPCR technology. Digital PCR has drawn attentions in both genomic research and clinical research communities for its ability to detect rare events (high sensitivity), less prone to inhibition (high specificity), no need for an internal standard (high precision), and access to well-developed PCR reagents. However, current dPCR instruments are capital intensive, cost per sample is high, and the workflow is complicated. With successful completion of our Phase 1 aims, we will continue the following product development effort to bring our platform to market with the following differentiated features ? Smooth transition from qPCR: o Equivalent workflow: The user will add the reagent mix to the consumable, reagent digitization, thermal cycling, and real-time imaging is vertically integrated into one instrument. o Cost efficiency: ? Instrument: The advance in imaging, thermal control and pneumatic control technologies allow us to sell the instrument at ~$30k, similar to qPCR instruments. ? Consumable: The scalable injection molding technology enables low cost per data point (<$1). o Open assay chemistry: The reagents will be partitioned in plastic microchambers instead of proprietary emulsion oil. The user?s qPCR recipe can be directed transitioned to our dPCR platform. o Automation compatible: The standard plate frame allows the user to automate the dPCR process with liquid handlers. ? More robust and consistent data: o Real-time imaging during thermal cycling: By subtracting from background pre-thermal cycling image from the post-thermal cycling image, as well as recording amplification dynamics of each partition, the user is able to count only partitions showing PCR to minimize false positive calls. o Fixed number of partitions for every data point: Poisson statistics is dependent on the total number of partitions. Our consumable will guarantee 20k partitions for each data point, unlike ddPCR, which varies between 11k to 19k. o Known volume: Quantification is done by dividing the number of molecules to the total volume. The volume of our array will be measured with confocal laser interferometry to give the user precise volume for quantification.
