Project Summary/Abstract: Spontaneous preterm labor (PTL, <37 weeks gestation) is the leading cause of neonatal and infant mortality globally, representing ~60% of all infant deaths. The physiopathology of PTL remains poorly understood due to the heterogeneities associated with the risk factors including maternal age, multiple gestation, and co-morbidities among others. Current clinical standard to identify women at high risk of PTL include cervical length assessment, and screening for fetal fibronectin in the cervicovaginal fluid. However, these approaches are inadequate and often fail to identify women who may deliver preterm. Recent patient metadata studies have identified multiple biomarkers correlated to PTL but risk scoring based on single biomarkers has shown low positive predictive values and have been ineffective in PTL prediction. The scientific premise of the proposed study is that there is an urgent clinical need for accurate diagnostics with multiplexed biomarker detection capabilities that are simultaneously affordable to facilitate routine bedside screening for all patients. Further by benchmarking the biodiagnostic against commercial assays using the same sample type from the same patients will minimize inter- and intra-assay variation, which remains a challenge in current bedside diagnostics. The objective of this study is to address this unmet need with an innovative biodiagnostic, PRADA, which combines high sensitivity, specificity, multiplexing, use of low sample volumes, and low cost. PRADA, portable reusable accurate diagnostics with nanoantennas, consists of magnetic microbeads capture probes functionalized with polyclonal antibodies, and near-infrared resonant gold nanostar “antennas” barcoded with Raman tags and labeled with peptides to detect the biomarkers via surface-enhanced Raman spectroscopy (SERS). PRADA has successfully demonstrated multiplexed detection of 3 PTL biomarkers including alpha- fetoprotein (AFP), corticotrophin releasing hormone (CRH) and granulocyte macrophage colony-stimulating factor (GM-CSF) in pregnant patient serum. PRADA achieved ultrasensitive limit of detection (LOD, 1.7 pg/ml GM-CSF) ideal for risk stratification, and when compared to commercial Luminex and ELISA, PRADA showed far lower LODs. Further, PRADA is also reusable (due to the use of magnetic beads), lowering the overall cost by allowing >15 uses of a single microfluidic device. This work will leverage innovative PRADA to quantitatively detect 6 serum biomarkers which are the most predictive of PTL including C-reactive protein (CRP), AFP, IL-10, IL-6, CRH, and GM-CSF benchmarked against Luminex and ELISA (Aim 1). Further, we will validate multiplexing with PRADA in serum of patients recruited for this study in the 18 – 35 years age group with singleton pregnancy and gestation age 19 – 36 weeks (Aim 2). A maternal risk score will be established categorizing patients into high and low risk groups, and the scoring will be compared to...