Literature DB >> 26539812

Short-lived positron emitters in beam-on PET imaging during proton therapy.

P Dendooven1, H J T Buitenhuis, F Diblen, P N Heeres, A K Biegun, F Fiedler, M-J van Goethem, E R van der Graaf, S Brandenburg.   

Abstract

The only method for in vivo dose delivery verification in proton beam radiotherapy in clinical use today is positron emission tomography (PET) of the positron emitters produced in the patient during irradiation. PET imaging while the beam is on (so called beam-on PET) is an attractive option, providing the largest number of counts, the least biological washout and the fastest feedback. In this implementation, all nuclides, independent of their half-life, will contribute. As a first step towards assessing the relevance of short-lived nuclides (half-life shorter than that of (10)C, T1/2  =  19 s) for in vivo dose delivery verification using beam-on PET, we measured their production in the stopping of 55 MeV protons in water, carbon, phosphorus and calcium The most copiously produced short-lived nuclides and their production rates relative to the relevant long-lived nuclides are: (12)N (T1/2  =  11 ms) on carbon (9% of (11)C), (29)P (T1/2  =  4.1 s) on phosphorus (20% of (30)P) and (38m)K (T1/2  =  0.92 s) on calcium (113% of (38g)K). No short-lived nuclides are produced on oxygen. The number of decays integrated from the start of an irradiation as a function of time during the irradiation of PMMA and 4 tissue materials has been determined. For (carbon-rich) adipose tissue, (12)N dominates up to 70 s. On bone tissue, (12)N dominates over (15)O during the first 8-15 s (depending on carbon-to-oxygen ratio). The short-lived nuclides created on phosphorus and calcium provide 2.5 times more beam-on PET counts than the long-lived ones produced on these elements during a 70 s irradiation. From the estimated number of (12)N PET counts, we conclude that, for any tissue, (12)N PET imaging potentially provides equal to superior proton range information compared to prompt gamma imaging with an optimized knife-edge slit camera. The practical implementation of (12)N PET imaging is discussed.

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Year:  2015        PMID: 26539812     DOI: 10.1088/0031-9155/60/23/8923

Source DB:  PubMed          Journal:  Phys Med Biol        ISSN: 0031-9155            Impact factor:   3.609


  8 in total

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Journal:  J Med Imaging (Bellingham)       Date:  2016-12-02

2.  The role of image-guided intensity modulated proton therapy in glioma.

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3.  Mid-range probing-towards range-guided particle therapy.

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Journal:  Phys Med Biol       Date:  2018-06-27       Impact factor: 3.609

4.  Early Response Monitoring Following Radiation Therapy by Using [18F]FDG and [11C]Acetate PET in Prostate Cancer Xenograft Model with Metabolomics Corroboration.

Authors:  Yi-Hsiu Chung; Cheng-Kun Tsai; Chiun-Chieh Wang; Hsi-Mu Chen; Kuan-Ying Lu; Han Chiu; Yu-Chun Lin; Tzu-Chen Yen; Gigin Lin
Journal:  Molecules       Date:  2017-11-10       Impact factor: 4.411

5.  Proton range verification with MACACO II Compton camera enhanced by a neural network for event selection.

Authors:  Enrique Muñoz; Ana Ros; Marina Borja-Lloret; John Barrio; Peter Dendooven; Josep F Oliver; Ikechi Ozoemelam; Jorge Roser; Gabriela Llosá
Journal:  Sci Rep       Date:  2021-04-29       Impact factor: 4.379

6.  Localization of anatomical changes in patients during proton therapy with in-beam PET monitoring: A voxel-based morphometry approach exploiting Monte Carlo simulations.

Authors:  Aafke Christine Kraan; Andrea Berti; Alessandra Retico; Guido Baroni; Giuseppe Battistoni; Nicola Belcari; Piergiorgio Cerello; Mario Ciocca; Micol De Simoni; Damiano Del Sarto; Marco Donetti; Yunsheng Dong; Alessia Embriaco; Veronica Ferrero; Elisa Fiorina; Marta Fischetti; Gaia Franciosini; Giuseppe Giraudo; Francesco Laruina; Davide Maestri; Marco Magi; Giuseppe Magro; Carlo Mancini Terracciano; Michela Marafini; Ilaria Mattei; Enrico Mazzoni; Paolo Mereu; Riccardo Mirabelli; Alfredo Mirandola; Matteo Morrocchi; Silvia Muraro; Alessandra Patera; Vincenzo Patera; Francesco Pennazio; Angelo Rivetti; Manuel Dionisio Da Rocha Rolo; Valeria Rosso; Alessio Sarti; Angelo Schiavi; Adalberto Sciubba; Elena Solfaroli Camillocci; Giancarlo Sportelli; Sara Tampellini; Marco Toppi; Giacomo Traini; Serena Marta Valle; Francesca Valvo; Barbara Vischioni; Viviana Vitolo; Richard Wheadon; Maria Giuseppina Bisogni
Journal:  Med Phys       Date:  2021-12-22       Impact factor: 4.506

7.  In-vivo range verification analysis with in-beam PET data for patients treated with proton therapy at CNAO.

Authors:  Martina Moglioni; Aafke Christine Kraan; Guido Baroni; Giuseppe Battistoni; Nicola Belcari; Andrea Berti; Pietro Carra; Piergiorgio Cerello; Mario Ciocca; Angelica De Gregorio; Micol De Simoni; Damiano Del Sarto; Marco Donetti; Yunsheng Dong; Alessia Embriaco; Maria Evelina Fantacci; Veronica Ferrero; Elisa Fiorina; Marta Fischetti; Gaia Franciosini; Giuseppe Giraudo; Francesco Laruina; Davide Maestri; Marco Magi; Giuseppe Magro; Etesam Malekzadeh; Michela Marafini; Ilaria Mattei; Enrico Mazzoni; Paolo Mereu; Alfredo Mirandola; Matteo Morrocchi; Silvia Muraro; Ester Orlandi; Vincenzo Patera; Francesco Pennazio; Marco Pullia; Alessandra Retico; Angelo Rivetti; Manuel Dionisio Da Rocha Rolo; Valeria Rosso; Alessio Sarti; Angelo Schiavi; Adalberto Sciubba; Giancarlo Sportelli; Sara Tampellini; Marco Toppi; Giacomo Traini; Antonio Trigilio; Serena Marta Valle; Francesca Valvo; Barbara Vischioni; Viviana Vitolo; Richard Wheadon; Maria Giuseppina Bisogni
Journal:  Front Oncol       Date:  2022-09-26       Impact factor: 5.738

8.  New Digital Plug and Imaging Sensor for a Proton Therapy Monitoring System Based on Positron Emission Tomography.

Authors:  Nicola D'Ascenzo; Min Gao; Emanuele Antonecchia; Paolo Gnudi; Hsien-Hsin Chen; Fang-Hsin Chen; Ji-Hong Hong; Ing-Tsung Hsiao; Tzu-Chen Yen; Weidong Wang; Daoming Xi; Bo Zhang; Qingguo Xie
Journal:  Sensors (Basel)       Date:  2018-09-08       Impact factor: 3.576
  8 in total

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