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Sonodynamic therapy with a single neoadjuvant, diffuse delivery of low-intensity ultrasound with 5-ALA in treatment naïve glioblastoma results in tumor-specific cytotoxic edema and increased apoptosis

Walter Stummer, Mirjam Gerwing, Sabriye Şennur Bilgin, Christian Thomas, Javier Villanueva‐Meyer, Vijay Agarwal, Louise Stögbauer, Juliane Schroeteler, Michael Müther

2025Journal of Neuro-Oncology13 citationsDOIOpen Access PDF

Abstract

PURPOSE: Sonodynamic therapy, which combines a tumor cell-selective sonosensitizer with ultrasound, is gaining attention as a promising new treatment approach for glioblastoma. The objective of this case study is to report on the first applications of 5-aminolevulinic acid (5-ALA) in combination with low-intensity, non-targeted ultrasound as neo-adjuvant treatment in therapy naïve glioblastoma. METHODS: Three patients with therapy naïve newly diagnosed glioblastoma were treated once before cytoreductive surgery with 5-ALA in combination with hemispheric, low-intensity, non-targeted ultrasound, assuming cell death to be triggered by non-ablative activation of 5-ALA-induced, tumor selective porphyrins. RESULTS: No adverse effects were noted. Post-procedural MRI indicated a decrease in apparent diffusion coefficient values in tumors, suggesting cytotoxic effects. Relative cerebral blood volumes and leakage were increased for two patients with available perfusion imaging. Tissue obtained during surgery suggested increased cleaved-caspase III expression, a marker of apoptosis. CONCLUSION: We saw an immediate marked imaging response indicating cytotoxic edema and indications of a histopathology response from just a single treatment. Correlation to clinical outcomes and extension of overall survival remains to be seen. A Phase 1 safety study has been submitted for regulatory approval.

Topics & Concepts

Sonodynamic therapyMedicineGliosarcomaEdemaUltrasoundCytotoxic T cellAdjuvant therapyMagnetic resonance imagingHigh-intensity focused ultrasoundApoptosisGlioblastomaRadiologyChemotherapyInternal medicineCancer researchBiochemistryChemistryIn vitroUltrasound and Hyperthermia ApplicationsNanoplatforms for cancer theranosticsCancer Research and Treatments