FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics

FLASH irradiations use dose-rates orders of magnitude higher than commonly used in patient treatments. Such irradiations have shown interesting normal tissue sparing in cell and animal experiments, and, as such, their potential application to clinical practice is being investigated. Clinical acceler...

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Main Authors: Konrad P. Nesteruk, Serena Psoroulas
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Applied Sciences
Subjects:
Online Access:https://www.mdpi.com/2076-3417/11/5/2170
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spelling doaj-ba5a75a4a5b249b5b0d22f2ff60f43e92021-03-03T00:00:21ZengMDPI AGApplied Sciences2076-34172021-03-01112170217010.3390/app11052170FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam DiagnosticsKonrad P. Nesteruk0Serena Psoroulas1Center for Proton Therapy, Paul Scherrer Institute, 5232 Villigen PSI, SwitzerlandCenter for Proton Therapy, Paul Scherrer Institute, 5232 Villigen PSI, SwitzerlandFLASH irradiations use dose-rates orders of magnitude higher than commonly used in patient treatments. Such irradiations have shown interesting normal tissue sparing in cell and animal experiments, and, as such, their potential application to clinical practice is being investigated. Clinical accelerators used in proton therapy facilities can potentially provide FLASH beams; therefore, the topic is of high interest in this field. However, a clear FLASH effect has so far been observed in presence of high dose rates (>40 Gy/s), high delivered dose (tens of Gy), and very short irradiation times (<300 ms). Fulfilling these requirements poses a serious challenge to the beam diagnostics system of clinical facilities. We will review the status and proposed solutions, from the point of view of the beam definitions for FLASH and their implications for beam diagnostics. We will devote particular attention to the topics of beam monitoring and control, as well as absolute dose measurements, since finding viable solutions in these two aspects will be of utmost importance to guarantee that the technique can be adopted quickly and safely in clinical practice.https://www.mdpi.com/2076-3417/11/5/2170FLASHproton therapypencil beam scanning
collection DOAJ
language English
format Article
sources DOAJ
author Konrad P. Nesteruk
Serena Psoroulas
spellingShingle Konrad P. Nesteruk
Serena Psoroulas
FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
Applied Sciences
FLASH
proton therapy
pencil beam scanning
author_facet Konrad P. Nesteruk
Serena Psoroulas
author_sort Konrad P. Nesteruk
title FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
title_short FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
title_full FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
title_fullStr FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
title_full_unstemmed FLASH Irradiation with Proton Beams: Beam Characteristics and Their Implications for Beam Diagnostics
title_sort flash irradiation with proton beams: beam characteristics and their implications for beam diagnostics
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-03-01
description FLASH irradiations use dose-rates orders of magnitude higher than commonly used in patient treatments. Such irradiations have shown interesting normal tissue sparing in cell and animal experiments, and, as such, their potential application to clinical practice is being investigated. Clinical accelerators used in proton therapy facilities can potentially provide FLASH beams; therefore, the topic is of high interest in this field. However, a clear FLASH effect has so far been observed in presence of high dose rates (>40 Gy/s), high delivered dose (tens of Gy), and very short irradiation times (<300 ms). Fulfilling these requirements poses a serious challenge to the beam diagnostics system of clinical facilities. We will review the status and proposed solutions, from the point of view of the beam definitions for FLASH and their implications for beam diagnostics. We will devote particular attention to the topics of beam monitoring and control, as well as absolute dose measurements, since finding viable solutions in these two aspects will be of utmost importance to guarantee that the technique can be adopted quickly and safely in clinical practice.
topic FLASH
proton therapy
pencil beam scanning
url https://www.mdpi.com/2076-3417/11/5/2170
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AT serenapsoroulas flashirradiationwithprotonbeamsbeamcharacteristicsandtheirimplicationsforbeamdiagnostics
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