Abstract 1879: A novel implantable device to in vivo assess anti-cancer agents

Background: The high variability in clinical responses observed in cancer patients highlights the need of a tailored therapeutic approach. A possible modality is to assess drugs sensitivity directly in the patients, by introducing small drug delivering devices in tumor sites for a very short period and then looking at the local anti-tumor effect. Here, we present the design of an innovative drug eluting device and its test with the BTK inhibitor ibrutinib as an example of small molecules. Methods: Mathematical models considered factors related to drug (MW), physical properties, desired concentrations in surrounding tissue, polymers and tissue physical features to identify the optimal polymers and the drug loading for the desired release profile over 24h. In vitro proliferation was measured with the MTT assay, in vivo experiments done in NOD-SCID mice (license TI05/2021), and immunohistochemistry on FFPE xenograft sections stained for Ki67 and cleaved caspase 3 (CASP-3). Results: Device was designed as an arrow-shaped cylinder, with flat end and flatter sections to be filled with the drug-eluting polymers. Prototypes were built in nylon6,6, a biocompatible but stable polymer. Ibrutinib was incorporated in low MW polyester poly-ε-caprolactone (PCL) as biopolymer by solvent casting. Polymeric coating onto devices was done with a dedicated automatic device.Devices loaded with biopolymer and different concentrations of ibrutinib or “empty” biopolymers were first in vitro tested using diffuse large B cell lymphoma (DLBCL) cell lines. Over 72h, devices with drug inhibited proliferation of the ibrutinib-sensitive TMD8 and OCI-Ly10 cell lines, but not of the ibrutinib-resistant SU-DHL-2 and U2932. No effect was seen with devices with ibrutinib-free biopolymers. Devices, empty or loaded with ibrutinib (5μg), were then inserted in xenografts of ibrutinib-sensitive cell line OCI-Ly10 and ibrutinib resistant U2932. After 24h, mice were sacrificed and xenografts analyzed. By Ki67 and CASP-3 a reduced cell proliferation and an increased apoptosis in the region surrounding the device was observed in the ibrutinib-sensitive xenografts, conversely nor reduced cell proliferation nor apoptosis induction were identified in the ibrutinib-resistant xenografts. Conclusions: We have created a prototype of a device that can locally release drugs allowing the evaluation of anti-tumor activity, optimizing cures tailored to single patient. The system can be further developed to include multiple drugs, including e.g. antibodies. Citation Format: Giuseppe Perale, Eugenio Gaudio, Tommaso Casalini, Luca Aresu, Anna Rita De Corso, Filippo Spriano, Chiara Tarantelli, Anastasios Stathis, Andrea Castrovinci, Francesco Bertoni. A novel implantable device to in vivo assess anti-cancer agents [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 1879.