PREOPERATIVE BRAIN IRRADIATION IN GLIOBLASTOMA (POBIG TRIAL): FEASIBILITY AND EVALUATION OF TREATMENT RESPONSE IN ENHANCING AND NON-ENHANCING REGIONS

Abstract

Abstract AIMS Patients with glioblastoma have dismal outcomes and there is an urgent need for new treatment modalities. The POBIG trial is the first to evaluate the safety and feasibility of single-fraction preoperative radiotherapy for newly diagnosed glioblastoma. We report the results from our first dose arm. METHOD POBIG is a phase I radiotherapy dose and volume escalation trial. The first dose arm received 8Gy preoperative radiotherapy to a maximum irradiation volume of 30cm3. The irradiation field included enhancing and non- enhancing FLAIR hyperintense regions judged as highest risk for remaining as postoperative residuum. Part of the tumour remained unirradiated (<2Gy) with a margin for diagnostic sampling. Surgical resection took place within 1 week. Patients underwent diffusion/perfusion MRI scans before/after preoperative radiotherapy. RESULTS Two female and one male patient aged 61, 67 and 45 years, respectively, were enrolled. Preoperative radio- therapy was delivered at a dose of 8Gy to an irradiation volume of 7-30cm3. Near-total surgical resection was performed 2-3 days after preoperative radiotherapy treatment. Pathological examination of irradiated areas showed necrosis including fibrinoid necrosis of vessel walls. There was an increase in Ktrans permeability in both irradiated enhancing tumour (0.097,0.150) and unirradiated enhancing tumour (0.077,0.147) 24-hours after treatment. In contrast, no obvious changes were noted in irradiated (0.002,0.002) and unirradiated (0.002,0.004) non-enhancing FLAIR hyperintense regions or reference unirradiated contralateral white matter (0.000,0.000). CONCLUSIONS Preoperative radiotherapy is feasible in newly diagnosed glioblastoma. Very early radiotherapy changes manifest in enhancing tumour regardless of radiotherapy dose, evident as increased permeability and radiation- induced tumour necrosis.