Theranostics for Neuroblastoma: Making Molecular Radiotherapy Work Better

Peter J Gawne; Helen E Bryant; Steven G DuBois; Sally L George; Juliet Gray; Leona Knox; Kyle B Matchett; Connie Peet; Katherine A Vallis; Hugh J Wallace; Simon Wan; Mark N Gaze

doi:10.2967/jnumed.124.269121

Theranostics for Neuroblastoma: Making Molecular Radiotherapy Work Better

Peter J Gawne, Helen E Bryant, Steven G DuBois, Sally L George, Juliet Gray, Leona Knox, Kyle B Matchett, Connie Peet, Katherine A Vallis, Hugh J Wallace, Simon Wan, Mark N Gaze

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Abstract

Despite improvements in neuroblastoma treatment, survival figures lag behind those of many other childhood malignancies. New treatments, and better use of existing treatments, are essential to reduce mortality. Neuroblastoma expresses several molecular targets for radionuclide imaging and therapy, of which the most widely exploited is the norepinephrine transporter. [ ¹²³I]metaiodobenzylguanidine (MIBG) imaging and [ ¹³¹I]MIBG treatment, which target this physiologic pathway, have been in clinical practice for 40 y. Although therapy outcomes have been favorable, [ ¹³¹I]MIBG use has not yet been optimized. Somatostatin receptors and the disialoganglioside are alternative targets, but their use remains experimental. The charity Children’s Cancer Research Fund organized a workshop bringing together a broad range of scientists including radiochemists, radiobiologists, radiation physicists, clinical researchers including pediatric oncologists and nuclear medicine physicians, and patient advocates from the United Kingdom, United States, and continental Europe to share their experiences with molecular imaging and radiotherapy of neuroblastoma and discuss potential ways of improving treatment outcomes and access. These include development of alternative vectors targeting somatostatin receptors and disialoganglioside, isotopes such as a-particle and Auger electron emitters with different radiation characteristics, and combinations with external-beam radiotherapy, immunotherapy, and DNA damage repair inhibitors. Barriers to progress discussed included the unpredictable radioisotope supply, production of novel radiopharmaceuticals, lack of data regarding which are the best combination therapies, and insufficient clinical facilities. The aim was to stimulate the development and assessment of more effective treatments.

Original language	English
Pages (from-to)	490-496
Number of pages	7
Journal	Journal of nuclear medicine : official publication, Society of Nuclear Medicine
Volume	66
Issue number	4
Early online date	20 Feb 2025
DOIs	https://doi.org/10.2967/jnumed.124.269121
Publication status	Published (in print/issue) - 1 Apr 2025

Bibliographical note

Publisher Copyright:
COPYRIGHT © 2025 by the Society of Nuclear Medicine and Molecular Imaging.

Funding

The Children’s Cancer Research Fund (U.K. Charity no. 1046278) sponsored the workshop, its scientific advisory board planned the content, and AstraZeneca, Joseph’s Smile, Recordati Rare Diseases, and Siemens Healthineers provided generous financial support. Peter Gawne is supported by Neuroblastoma UK. Mark Gaze is supported by the National Institute for Health Research University College London Hospitals Biomedical Research Centre and by the Radiation Research Unit at the Cancer Research UK City of London Centre Award C7893/A28990). Helen Bryant is supported by Children with Cancer and CCLG–Little Princess Trust. Sally George is supported by Cancer Research UK (CRUK) and CCLG–Little Princess Trust. Kyle Matchett is supported by Higher Education Authority (HEA) and CCLG–Little Princess Trust. Simon Wan is supported by the National Institute for Health Research University College London Hospitals Biomedical Research Centre. The MINT clinical trial is supported by Solving Kids Cancer UK, the SickKids Foundation, and the Penelope Neuroblastoma Foundation. Peter Gawne reports travel expenses from Recordati Rare Diseases. Steven DuBois reports consulting fees from Amgen, Bayer, InhibRx, and Jazz and travel expenses from Loxo, Roche, and Salarius. No other potential conflict of interest relevant to this article was reported.

Keywords

radionuclide therapy
neuroblastoma
radiopharmaceutical therapy
molecular radiotherapy
theranostics
3-Iodobenzylguanidine/therapeutic use
Humans
Neuroblastoma/radiotherapy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Final published versionFinal published version, 853 KBLicence: CC BY

Cite this

Gawne, P. J., Bryant, H. E., DuBois, S. G., George, S. L., Gray, J., Knox, L., Matchett, K. B., Peet, C., Vallis, K. A., Wallace, H. J., Wan, S., & Gaze, M. N. (2025). Theranostics for Neuroblastoma: Making Molecular Radiotherapy Work Better. Journal of nuclear medicine : official publication, Society of Nuclear Medicine, 66(4), 490-496. https://doi.org/10.2967/jnumed.124.269121

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title = "Theranostics for Neuroblastoma: Making Molecular Radiotherapy Work Better",

abstract = "Despite improvements in neuroblastoma treatment, survival figures lag behind those of many other childhood malignancies. New treatments, and better use of existing treatments, are essential to reduce mortality. Neuroblastoma expresses several molecular targets for radionuclide imaging and therapy, of which the most widely exploited is the norepinephrine transporter. [ 123I]metaiodobenzylguanidine (MIBG) imaging and [ 131I]MIBG treatment, which target this physiologic pathway, have been in clinical practice for 40 y. Although therapy outcomes have been favorable, [ 131I]MIBG use has not yet been optimized. Somatostatin receptors and the disialoganglioside are alternative targets, but their use remains experimental. The charity Children{\textquoteright}s Cancer Research Fund organized a workshop bringing together a broad range of scientists including radiochemists, radiobiologists, radiation physicists, clinical researchers including pediatric oncologists and nuclear medicine physicians, and patient advocates from the United Kingdom, United States, and continental Europe to share their experiences with molecular imaging and radiotherapy of neuroblastoma and discuss potential ways of improving treatment outcomes and access. These include development of alternative vectors targeting somatostatin receptors and disialoganglioside, isotopes such as a-particle and Auger electron emitters with different radiation characteristics, and combinations with external-beam radiotherapy, immunotherapy, and DNA damage repair inhibitors. Barriers to progress discussed included the unpredictable radioisotope supply, production of novel radiopharmaceuticals, lack of data regarding which are the best combination therapies, and insufficient clinical facilities. The aim was to stimulate the development and assessment of more effective treatments.",

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AU - Matchett, Kyle B

AU - Peet, Connie

AU - Vallis, Katherine A

AU - Wallace, Hugh J

AU - Wan, Simon

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ER -

Theranostics for Neuroblastoma: Making Molecular Radiotherapy Work Better

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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