An experimental study of focused very high energy electron beams for radiotherapy

Very high energy electron (VHEE) beams have been proposed as an alternative radiotherapy modality to megavoltage photons; they penetrate deeply without significant scattering in inhomogeneous tissue because of their high relativistic inertia. However, the depth dose distribution of a single, collima...

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Detalles Bibliográficos
Autores principales: Kokurewicz, Karolina, Brunetti, Enrico, Curcio, Alessandro, Gamba, Davide, Garolfi, Luca, Gilardi, Antonio, Senes, Eugenio, Sjobak, Kyrre Ness, Farabolini, Wilfrid, Corsini, Roberto, Jaroszynski, Dino Anthony
Lenguaje:eng
Publicado: 2021
Materias:
Accelerators and Storage Rings
Health Physics and Radiation Effects
Acceso en línea:https://dx.doi.org/10.1038/s42005-021-00536-0
http://cds.cern.ch/record/2810016
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author Kokurewicz, Karolina
Brunetti, Enrico
Curcio, Alessandro
Gamba, Davide
Garolfi, Luca
Gilardi, Antonio
Senes, Eugenio
Sjobak, Kyrre Ness
Farabolini, Wilfrid
Corsini, Roberto
Jaroszynski, Dino Anthony
author_facet Kokurewicz, Karolina
Brunetti, Enrico
Curcio, Alessandro
Gamba, Davide
Garolfi, Luca
Gilardi, Antonio
Senes, Eugenio
Sjobak, Kyrre Ness
Farabolini, Wilfrid
Corsini, Roberto
Jaroszynski, Dino Anthony
author_sort Kokurewicz, Karolina
collection CERN
description Very high energy electron (VHEE) beams have been proposed as an alternative radiotherapy modality to megavoltage photons; they penetrate deeply without significant scattering in inhomogeneous tissue because of their high relativistic inertia. However, the depth dose distribution of a single, collimated VHEE beam is quasi-uniform, which can lead to healthy tissue being overexposed. This can be largely overcome by focusing the VHEE beam to a small spot. Here, we present experiments to demonstrate focusing as a means of concentrating dose into small volumetric elements inside a target. We find good agreement between measured dose distributions and Monte Carlo simulations. Focused radiation beams could be used to precisely target tumours or hypoxic regions of a tumour, which would enhance the efficacy of radiotherapy. The development of new accelerator technologies may provide future compact systems for delivering these focused beams to tumours, a concept that can also be extended to X-rays and hadrons.
id cern-2810016
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2021
record_format invenio
spelling cern-28100162022-06-16T07:59:12Zdoi:10.1038/s42005-021-00536-0http://cds.cern.ch/record/2810016engKokurewicz, KarolinaBrunetti, EnricoCurcio, AlessandroGamba, DavideGarolfi, LucaGilardi, AntonioSenes, EugenioSjobak, Kyrre NessFarabolini, WilfridCorsini, RobertoJaroszynski, Dino AnthonyAn experimental study of focused very high energy electron beams for radiotherapyAccelerators and Storage RingsHealth Physics and Radiation EffectsVery high energy electron (VHEE) beams have been proposed as an alternative radiotherapy modality to megavoltage photons; they penetrate deeply without significant scattering in inhomogeneous tissue because of their high relativistic inertia. However, the depth dose distribution of a single, collimated VHEE beam is quasi-uniform, which can lead to healthy tissue being overexposed. This can be largely overcome by focusing the VHEE beam to a small spot. Here, we present experiments to demonstrate focusing as a means of concentrating dose into small volumetric elements inside a target. We find good agreement between measured dose distributions and Monte Carlo simulations. Focused radiation beams could be used to precisely target tumours or hypoxic regions of a tumour, which would enhance the efficacy of radiotherapy. The development of new accelerator technologies may provide future compact systems for delivering these focused beams to tumours, a concept that can also be extended to X-rays and hadrons.oai:cds.cern.ch:28100162021
spellingShingle Accelerators and Storage Rings
Health Physics and Radiation Effects
Kokurewicz, Karolina
Brunetti, Enrico
Curcio, Alessandro
Gamba, Davide
Garolfi, Luca
Gilardi, Antonio
Senes, Eugenio
Sjobak, Kyrre Ness
Farabolini, Wilfrid
Corsini, Roberto
Jaroszynski, Dino Anthony
An experimental study of focused very high energy electron beams for radiotherapy
title An experimental study of focused very high energy electron beams for radiotherapy
title_full An experimental study of focused very high energy electron beams for radiotherapy
title_fullStr An experimental study of focused very high energy electron beams for radiotherapy
title_full_unstemmed An experimental study of focused very high energy electron beams for radiotherapy
title_short An experimental study of focused very high energy electron beams for radiotherapy
title_sort experimental study of focused very high energy electron beams for radiotherapy
topic Accelerators and Storage Rings
Health Physics and Radiation Effects
url https://dx.doi.org/10.1038/s42005-021-00536-0
http://cds.cern.ch/record/2810016
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