Concise, evidence-anchored claims: oncolytic virotherapy (OV) for glioblastoma (GBM) has shifted from single-agent oncolysis to engineering/immuno-virotherapy, combinatorial regimens (OV+ICI, CAR-T, TTFields, rapamycin), and delivery innovations such as CED and carrier cells — supported by clinical signals (G47Δ approval in Japan; DNX-2401 + PD-1 signals) and dense preclinical exploration across multiple viral backbones
Support: intratumoral dosing often increases local immunogenic cell death and reduces distant foci but can cause edema/necrosis that inflates MRI tumor volume measures; intravenous dosing risks secondary foci and rapid clearance but can distribute to multifocal disease — findings reflected in vaccinia and VV-GMCSF-Lact animal studies
Current conclusion (moderate confidence): OV is a promising, rapidly evolving modality for GBM with real clinical signals (G47Δ approval, DNX-2401 + PD‑1 responses, PVSRIPO durable survivors), but durable, reproducible population-level efficacy remains unproven and critically depends on delivery, immune-escape (NAbs, TSR), and patient molecular context (IDH/IFN pathways). Key evidence that would overturn this conclusion: large randomized trials showing no OS/PFS benefit for OV+combination arms versus SOC across biomarker-stratified cohorts, or consistent safety/lack-of-delivery across multi-center CED/IV trials. Key data that would strengthen the conclusion: reproducible randomized improvements in OS/PFS with biomarker-guided OV arms and validated companion diagnostics for IFN/receptor/IL-8 signatures.
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