Adane, YedidyaBerdia, JasonBhargava, AayushFernandes, CatarinaPallavajjala, RoshniVitievsky, MarkmicroRNAs (miRNAs) are short sequences of non-coding RNA that play a vital role in the regulation of gene expression in cells and tumorigenesis. Previous research has identified specific miRNAs can be used as biomarkers, as patients with cancer exhibited elevated concentrations of miRNA in blood samples. Patients can have poor prognosis rates without early detection; however, current detection methods are invasive, time-consuming, and expensive. In this study, we have developed a point-of-care screening tool to detect miRNA using ligation-loop-mediated isothermal amplification (ligation-LAMP) and a 3D-printed sensor. Specifically, we designed a colorimetric ligation LAMP assay that has high sensitivity and specificity to miRNA-155, a cancer biomarker, and created a One-Pot system using Thermally Responsive Alkane Partitions (TRAPs). Furthermore, we have developed a portable sensor for the assay, with controlled heating and real-time quantification, to make the assay more accessible at the point of care. Combining the One-Pot assay with the portable sensor allows for rapid and inexpensive detection of miRNA biomarkers.en-USFirst-Year Innovation and Research ExperienceMolecular BiologymiRNACancer DetectionMolecular DiagnosticsOther