Abstract

617 Background: Pancreatic cysts are rarely symptomatic, and, consequently, are detected incidentally during routine imaging analyses for unrelated disorders. Guidelines for diagnosis of pancreatic cysts rely on imaging and supportive analyses of fluid extracted during endoscopic ultrasound with fine-needle aspiration (EUS-FNA). Unfortunately, currently available protein markers and assays are not sufficiently accurate to rule-out patients in whom a non-mucinous pancreatic cyst has formed. Since non-mucinous pancreatic cysts seldom progress to cancer, this patient population is at risk of being subjected to the severe physical, emotional, and financial burdens associated with unwarranted surveillance, testing, and possible surgical intervention. Furthermore, identification of mucinous pancreatic cysts does not establish the risk of progression to cancer (rule-in) or the need for surgical intervention. Methods: To address the unmet needs in pancreatic cyst diagnosis, Amplified Sciences has combined a panel of markers with a clinically translated surface enhanced Raman spectroscopy (SERS)-based protease activity assay as a rule-out diagnostic tool. The tri-analyte panel was tested on a cohort of 185 retrospective samples gathered from three separate institutions (UPMC, IU Health, and UCSF) and consumed only 12 µL of cyst fluid per sample. The goals of this study were to establish the negative predictive value (NPV) of this panel prior to translation to a CLIA-regulated laboratory and create a preliminary algorithm for analysis. Results: The results of this statistically powered study show that protease activity outperforms carcinoembryonic antigen (CEA), a current standard diagnostic marker for pancreatic cyst fluid, in sensitivity, specificity, and NPV. Furthermore, in combination, the tri-analyte panel identifies non-mucinous pancreatic cysts with 99% sensitivity and a negative predictive value >95%. Conclusions: These results support the use of this panel in clinical settings as a diagnostic tool to rule-out patients from surgical intervention, as well as the use of SERS as an optical detection mode for clinical diagnostics. Future work will continue to address the unmet need for improved diagnostic information through multiplexed analyses of markers that consume comparatively minimal volume of pancreatic cyst fluid samples. Studies will also seek to build on the SERS platform by introducing more dyes, substrates, assays, and analytical methods. Amplified Sciences would like to acknowledge significant efforts to build the clinical samples cohort from Gina Zhu, Kelli Ifuku, and Dr. Kimberly Kirkwood from USCF, Christine Decapite and Dr. Randall Brand from UPMC, and Michele Yip-Schneider and Dr. C. Max Schmidt from IU Health.

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