Publications by authors named "Orion Scott"

The polymerase chain reaction (PCR) is paramount in nucleic acid amplification testing, and for many assays, the use of PCR or qPCR is considered the 'gold standard'. While instrumentation for executing PCR has advanced over the last two decades, a growing interest in point-of-need testing has highlighted the deficit that exists for 'rapid PCR' systems. Here, we describe a field-forward prototype instrument capable of ultra-fast thermal cycling for real-time PCR amplification of DNA and RNA.

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We report the successful separation of sperm cells from a relevant composition of mock sexual assault samples using a novel acoustic differential extraction (ADE) technology. A multi-layer microfluidic device fabricated in a non-photolithographic process from glass and polydimethylsiloxane (PDMS) was capable of interfacing with custom-built instrumentation to exploit a standing acoustic wave for the trapping of individual sperm cells in a sample containing an abundance of epithelial cells. Samples were generated from buccal and vaginal swabs to mimic post-coital vaginal swabs, and processed through the ADE system followed by DNA extraction of the captured cells with amplification of DNA using a custom short tandem repeat (STR) chemistry.

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A fully integrated microfluidic chip for human identification by short tandem repeat (STR) analysis that includes a unique enzymatic liquid preparation of the DNA, microliter non-contact PCR, and a polymer that allows a high-resolution separation within a compact microchip footprint has been developed. A heat-activated enzyme that digests biological materials is employed to generate the target yield of DNA from a buccal swab or FTA paper. The microfluidic architecture meters an aliquot of the liberated DNA and mixes it with the PCR reagents prior to non-contact IR-mediated PCR amplification.

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A system that automatically performs the PCR amplification and microchip electrophoretic (ME) separation for rapid forensic short tandem repeat (STR) forensic profiling in a single disposable plastic chip is demonstrated. The microchip subassays were optimized to deliver results comparable to conventional benchtop methods. The microchip process was accomplished in sub-90 min compared with >2.

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