Abstract

Abstract Introduction Approximately 400 children in the UK are diagnosed with a CNS tumor each year, which represents a quarter of childhood cancer cases in the UK. The 5-year survival rate of paediatric brain tumor patients is approximately 75%, but survival remains much worse for some brain tumor patients, particularly high-grade gliomas. Pre-clinical and clinical studies have demonstrated efficacy of TTFields as a treatment for high-grade glioma leading to the approval of TTFields for adult Glioblastoma multiforme (GBM) patients. The lack of overlapping toxicities associated with TTFields has made electric field therapy an attractive treatment strategy for poor prognosis paediatric brain tumors.Methods The inovitro is the laboratory based testing system used to deliver TTFields to cell cultures. inovitro was used to deliver TTFields over 72 hours at a range of clinically relevant frequencies (100-400kHz) to our panel of paediatric GBM, Medulloblastoma and Ependymoma cell lines. The effects of TTFields on cell viability and cell cycle was assessed using Resazurin based metabolic viability tests and flow cytometry. The determined optimal frequency for each cell line was also combined with a mitotic inhibitor to explore synergistic effects. Gene expression changes of TTFields treated cells was investigated. Results TTFields treatment reduces cell viability of all cell lines tested within the frequency panel. The optimum frequencies were between 100 and 400kHz for all cell lines tested. TTFields treatment had effects on cell cycling with increased G2 accumulation of treated cells being observed. Combining TTFields with mitotic inhibitors increased efficacy in an additive fashion. Conclusions This preliminary study has demonstrated efficacy of TTFields on paediatric brain tumor cell lines. The optimal frequencies for all the paediatric GBM cell lines used did not match the 200kHz as previously reported for U-87 MG cells. This report warrants further study into the potential for TTFields therapy for paediatric brain tumor patients. Citation Format: Joshua Branter, Maria Estevez-Cebrero, Richard Grundy, Surajit Basu, Stuart Smith. Tumor treating fields (TTFields) have antiproliferative effects on high-grade pediatric brain tumor cell lines [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4637.

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