Abstract 694: E-slice: A novel 3D culture platform for precision medicine

Abstract

Abstract The need for personalized medicine in oncology is widely accepted but translating this important concept into clinical practice has been challenging. Currently, the dominant platform for precision medicine utilizes genomics/sequencing-based assays to measure the expression and/or mutational profiles and then infer patient responses to therapies based on previous knowledge; however, this approach benefits less than 10-15% of patients with profiled tumors. Recognizing the inherent limitations of these inference-based methods, functional assays (e.g., organoids and PDX models) have been developed; however, these approaches also have significant limitations including high cost and time required to establish the models, low “take rates”, and destruction of the native tumor microenvironment (TME). To overcome these challenges, EMPIRI uses a novel 3D ex vivo tumor slice culture method (E-slices) that enables rapid, personalized drug sensitivity testing in intact patient tumor tissues. Major differentiators of the E-slice platform from other ex vivo methods include the use of chemically defined, serum-free medium, longitudinal viability measurements from the same tissue, tracking of dynamic responses to treatment over 2-3 weeks, and retention of the native TME and tissue architecture, unlike other approaches. In addition, E-slices can be generated from any solid tumor tested thus far (breast, lung, colorectal, pancreas, brain, head 7 neck, and others) from patient tumors directly and PDX and genetically engineered mouse models. In addition, because E-slices retain tumor-infiltrating immune cells in their native microenvironment and spatial topography of all cell types in the endogenous configuration, it sustains immune cell survival and proliferation and measures immunotherapy responses ex vivo. The E-slice method is compatible with biopsies as well as surgical samples. Importantly, it has been shown to accurately predict individual patient treatment responses to chemotherapies and targeted therapies in 4-12 days, paving the way for evidence-based personalized treatment selections in a clinically actionable time frame. In summary, we present a novel ex vivo 3D human tumor tissue drug sensitivity platform that faithfully replicates the patient tumor tissues and provides personalized treatment responses in a clinically actionable time frame. Citation Format: Archana Gopalan, Thomas D. Gallup, Stephanie Wood, Jose Maldonado, Corina Margain, Nestor F. Esnaola, Min P. Kim, E. Scott Kopetz, Kyuson Yun. E-slice: A novel 3D culture platform for precision medicine [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 694.