The interaction of the incoming beam radiation with the patient body in hadrontherapy treatments produces secondary charged and neutral particles, whose detection can be used for monitoring purposes and to perform an on-line check of beam particle range. In the context of ion-therapy with active scanning, charged particles are potentially attractive since they can be easily tracked with a high efficiency, in presence of a relatively low background contamination. In order to verify the possibility of exploiting this approach for in-beam monitoring in ion-therapy, and to guide the design of specific detectors, both simulations and experimental tests are being performed with ion beams impinging on simple homogeneous tissue-like targets (PMMA). From these studies, a resolution of the order of few millimeters on the single track has been proven to be sufficient to exploit charged particle tracking for monitoring purposes, preserving the precision achievable on longitudinal shape. The results obtained so far show that the measurement of charged particles can be successfully implemented in a technology capable of monitoring both the dose profile and the position of the Bragg peak inside the target and finally lead to the design of a novel profile detector. Crucial aspects to be considered are the detector positioning, to be optimized in order to maximize the available statistics, and the capability of accounting for the multiple scattering interactions undergone by the charged fragments along their exit path from the patient body. The experimental results collected up to now are also valuable for the validation of Monte Carlo simulation software tools and their implementation in Treatment Planning Software packages.

Monitoring of hadrontherapy treatments by means of charged particle detection / Muraro, Silvia; Battistoni, Giuseppe; Collamati, Francesco; DE LUCIA, Erika; Faccini, Riccardo; Ferroni, Fernando; Fiore, Salvatore; Frallicciardi, Paola; Marafini, Michela; Mattei, Ilaria; Morganti, Silvio; Paramatti, Riccardo; Piersanti, Luca; Pinci, Davide; Rucinski, Antoni; Russomando, Andrea; Sarti, Alessio; Sciubba, Adalberto; SOLFAROLI CAMILLOCCI, Elena; Toppi, Marco; Traini, Giacomo; Voena, Cecilia; Patera, Vincenzo. - In: FRONTIERS IN ONCOLOGY. - ISSN 2234-943X. - 6:AUG(2016), p. 177. [10.3389/fonc.2016.00177]

Monitoring of hadrontherapy treatments by means of charged particle detection

FACCINI, Riccardo;FERRONI, Fernando;FIORE, SALVATORE;PARAMATTI, Riccardo;PIERSANTI, LUCA;PINCI, davide;RUSSOMANDO, ANDREA;SARTI, ALESSIO;SCIUBBA, Adalberto;SOLFAROLI CAMILLOCCI, ELENA;TOPPI, Marco;TRAINI, GIACOMO;VOENA, Cecilia;PATERA, Vincenzo
2016

Abstract

The interaction of the incoming beam radiation with the patient body in hadrontherapy treatments produces secondary charged and neutral particles, whose detection can be used for monitoring purposes and to perform an on-line check of beam particle range. In the context of ion-therapy with active scanning, charged particles are potentially attractive since they can be easily tracked with a high efficiency, in presence of a relatively low background contamination. In order to verify the possibility of exploiting this approach for in-beam monitoring in ion-therapy, and to guide the design of specific detectors, both simulations and experimental tests are being performed with ion beams impinging on simple homogeneous tissue-like targets (PMMA). From these studies, a resolution of the order of few millimeters on the single track has been proven to be sufficient to exploit charged particle tracking for monitoring purposes, preserving the precision achievable on longitudinal shape. The results obtained so far show that the measurement of charged particles can be successfully implemented in a technology capable of monitoring both the dose profile and the position of the Bragg peak inside the target and finally lead to the design of a novel profile detector. Crucial aspects to be considered are the detector positioning, to be optimized in order to maximize the available statistics, and the capability of accounting for the multiple scattering interactions undergone by the charged fragments along their exit path from the patient body. The experimental results collected up to now are also valuable for the validation of Monte Carlo simulation software tools and their implementation in Treatment Planning Software packages.
2016
Hadrontherapy; Particle detection; Real time monitoring; Oncology; Cancer Research
01 Pubblicazione su rivista::01a Articolo in rivista
Monitoring of hadrontherapy treatments by means of charged particle detection / Muraro, Silvia; Battistoni, Giuseppe; Collamati, Francesco; DE LUCIA, Erika; Faccini, Riccardo; Ferroni, Fernando; Fiore, Salvatore; Frallicciardi, Paola; Marafini, Michela; Mattei, Ilaria; Morganti, Silvio; Paramatti, Riccardo; Piersanti, Luca; Pinci, Davide; Rucinski, Antoni; Russomando, Andrea; Sarti, Alessio; Sciubba, Adalberto; SOLFAROLI CAMILLOCCI, Elena; Toppi, Marco; Traini, Giacomo; Voena, Cecilia; Patera, Vincenzo. - In: FRONTIERS IN ONCOLOGY. - ISSN 2234-943X. - 6:AUG(2016), p. 177. [10.3389/fonc.2016.00177]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/905386
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