Adomas Bunevicius1, Stylianos Pikis1, Frederic Padilla2,3, Francesco Prada1,2,4, Jason Sheehan5,6. 1. Department of Neurological Surgery, University of Virginia, Charlottesville, VA, USA. 2. Focused Ultrasound Foundation, Charlottesville, VA, USA. 3. Department of Radiology, University of Virginia, Charlottesville, VA, USA. 4. Department of Neurosurgery, Fondazione IRCCS Istituto Neurologico C. Besta, Milan, Italy. 5. Department of Neurological Surgery, University of Virginia, Charlottesville, VA, USA. jsheehan@virginia.edu. 6. University of Virginia Health System, Box 800212, Charlottesville, VA, 22908, USA. jsheehan@virginia.edu.
Abstract
INTRODUCTION: Glioma remains incurable and a life limiting disease with an urgent need for effective therapies. Sonodynamic therapy (SDT) involves systemic delivery of non-toxic chemical agents (sonosensitizers) that accumulate in tumor cells or environment and are subsequently activated by exposure to low-frequency ultrasound to become cytotoxic agents. Herein, we discuss proposed mechanisms of action of SDT and provide recommendation for future research and clinical applications of SDT for gliomas. METHODS: Review of literature of SDT in glioma cell cultures and animal models published in Pubmed/MEDLINE before January, 2021. RESULTS: Different porphyrin and xanthene derivatives have proven to be effective sonosensitizers. Generation of reactive oxygen species and free radicals from water pyrolysis or sonosensitizers, or physical destabilization of cell membrane, have been identified as mechanisms of SDT leading to cell death. Numerous studies across glioma cell lines using various sonosensitizers and ultrasound parameters have documented tumoricidal effects of SDT. Studies in small animal glioma xenograft models have also consistently documented that SDT is associated with improved tumor control and longer survival of animals treated with SDT while avoiding damage of surrounding brain. There are no clinical trials completed to date regarding safety and efficacy of SDT in patients harboring gliomas, but some are beginning. CONCLUSIONS: Pre-clinical studies cell cultures and animal models indicate that SDT is a promising treatment approach for gliomas. Further studies should define optimal sonication parameters and sonosensitizers for gliomas. Clinical trials of SDT in patients harboring gliomas and other malignant brain tumors are currently underway.
INTRODUCTION: Glioma remains incurable and a life limiting disease with an urgent need for effective therapies. Sonodynamic therapy (SDT) involves systemic delivery of non-toxic chemical agents (sonosensitizers) that accumulate in tumor cells or environment and are subsequently activated by exposure to low-frequency ultrasound to become cytotoxic agents. Herein, we discuss proposed mechanisms of action of SDT and provide recommendation for future research and clinical applications of SDT for gliomas. METHODS: Review of literature of SDT in glioma cell cultures and animal models published in Pubmed/MEDLINE before January, 2021. RESULTS: Different porphyrin and xanthene derivatives have proven to be effective sonosensitizers. Generation of reactive oxygen species and free radicals from water pyrolysis or sonosensitizers, or physical destabilization of cell membrane, have been identified as mechanisms of SDT leading to cell death. Numerous studies across glioma cell lines using various sonosensitizers and ultrasound parameters have documented tumoricidal effects of SDT. Studies in small animal glioma xenograft models have also consistently documented that SDT is associated with improved tumor control and longer survival of animals treated with SDT while avoiding damage of surrounding brain. There are no clinical trials completed to date regarding safety and efficacy of SDT in patients harboring gliomas, but some are beginning. CONCLUSIONS: Pre-clinical studies cell cultures and animal models indicate that SDT is a promising treatment approach for gliomas. Further studies should define optimal sonication parameters and sonosensitizers for gliomas. Clinical trials of SDT in patients harboring gliomas and other malignant brain tumors are currently underway.
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