Literature DB >> 28111101

Design of a new tracking device for on-line beam range monitor in carbon therapy.

Giacomo Traini1, Giuseppe Battistoni2, Angela Bollella3, Francesco Collamati1, Erika De Lucia4, Riccardo Faccini1, Fernando Ferroni1, Paola Maria Frallicciardi5, Carlo Mancini-Terracciano1, Michela Marafini6, Ilaria Mattei2, Federico Miraglia3, Silvia Muraro2, Riccardo Paramatti1, Luca Piersanti4, Davide Pinci7, Antoni Rucinski6, Andrea Russomando1, Alessio Sarti6, Adalberto Sciubba8, Martina Senzacqua9, Elena Solfaroli-Camillocci1, Marco Toppi4, Cecilia Voena10, Vincenzo Patera8.   

Abstract

Charged particle therapy is a technique for cancer treatment that exploits hadron beams, mostly protons and carbon ions. A critical issue is the monitoring of the beam range so to check the correct dose deposition to the tumor and surrounding tissues. The design of a new tracking device for beam range real-time monitoring in pencil beam carbon ion therapy is presented. The proposed device tracks secondary charged particles produced by beam interactions in the patient tissue and exploits the correlation of the charged particle emission profile with the spatial dose deposition and the Bragg peak position. The detector, currently under construction, uses the information provided by 12 layers of scintillating fibers followed by a plastic scintillator and a pixelated Lutetium Fine Silicate (LFS) crystal calorimeter. An algorithm to account and correct for emission profile distortion due to charged secondaries absorption inside the patient tissue is also proposed. Finally detector reconstruction efficiency for charged particle emission profile is evaluated using a Monte Carlo simulation considering a quasi-realistic case of a non-homogenous phantom.
Copyright © 2017 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Hadron therapy; Particle detection; Real time monitoring

Mesh:

Substances:

Year:  2017        PMID: 28111101     DOI: 10.1016/j.ejmp.2017.01.004

Source DB:  PubMed          Journal:  Phys Med        ISSN: 1120-1797            Impact factor:   2.685


  4 in total

1.  A Monte Carlo feasibility study for neutron based real-time range verification in proton therapy.

Authors:  Kristian Smeland Ytre-Hauge; Kyrre Skjerdal; John Mattingly; Ilker Meric
Journal:  Sci Rep       Date:  2019-02-14       Impact factor: 4.379

2.  Applications of Machine Learning to Improve the Clinical Viability of Compton Camera Based in vivo Range Verification in Proton Radiotherapy.

Authors:  Jerimy C Polf; Carlos A Barajas; Stephen W Peterson; Dennis S Mackin; Sam Beddar; Lei Ren; Matthias K Gobbert
Journal:  Front Phys       Date:  2022-04-11

3.  Monitoring Carbon Ion Beams Transverse Position Detecting Charged Secondary Fragments: Results From Patient Treatment Performed at CNAO.

Authors:  Marco Toppi; Guido Baroni; Giuseppe Battistoni; Maria Giuseppina Bisogni; Piergiorgio Cerello; Mario Ciocca; Patrizia De Maria; Micol De Simoni; Marco Donetti; Yunsheng Dong; Alessia Embriaco; Veronica Ferrero; Elisa Fiorina; Marta Fischetti; Gaia Franciosini; Aafke Christine Kraan; Carmela Luongo; Etesam Malekzadeh; Marco Magi; Carlo Mancini-Terracciano; Michela Marafini; Ilaria Mattei; Enrico Mazzoni; Riccardo Mirabelli; Alfredo Mirandola; Matteo Morrocchi; Silvia Muraro; Vincenzo Patera; Francesco Pennazio; Angelo Schiavi; Adalberto Sciubba; Elena Solfaroli-Camillocci; Giancarlo Sportelli; Sara Tampellini; Giacomo Traini; Serena Marta Valle; Barbara Vischioni; Viviana Vitolo; Alessio Sarti
Journal:  Front Oncol       Date:  2021-06-10       Impact factor: 6.244

4.  Inter-fractional monitoring of [Formula: see text]C ions treatments: results from a clinical trial at the CNAO facility.

Authors:  M Fischetti; G Baroni; G Battistoni; G Bisogni; P Cerello; M Ciocca; P De Maria; M De Simoni; B Di Lullo; M Donetti; Y Dong; A Embriaco; V Ferrero; E Fiorina; G Franciosini; F Galante; A Kraan; C Luongo; M Magi; C Mancini-Terracciano; M Marafini; E Malekzadeh; I Mattei; E Mazzoni; R Mirabelli; A Mirandola; M Morrocchi; S Muraro; V Patera; F Pennazio; A Schiavi; A Sciubba; E Solfaroli Camillocci; G Sportelli; S Tampellini; M Toppi; G Traini; S M Valle; B Vischioni; V Vitolo; A Sarti
Journal:  Sci Rep       Date:  2020-11-26       Impact factor: 4.379
  4 in total

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