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CERN Document Server 找到 341 筆記錄  1 - 10下一個最後  跳到記錄: 檢索需時 0.57 秒. 
1.
Measurement of $^{12}$C Fragmentation Cross Sections on C, O, and H in the Energy Range of Interest for Particle Therapy Applications / Mattei, I ; Alexandrov, A ; Alunni Solestizi, L ; Ambrosi, G ; Argiro, S ; Bartosik, N ; Battistoni, G ; Belcari, N ; Biondi, S ; Bisogni, M G et al.
In a carbon ion treatment the nuclear fragmentation of both target and beam projectiles impacts on the dose released on the tumor and on the surrounding healthy tissues. Carbon ion fragmentation occurring inside the patient body has to be studied in order to take into account this contribution. [...]
2020 - 14 p. - Published in : IEEE Trans. Rad. Plasma Med. Sci. 4 (2020) 269-282
2.
Benchmarking of FLUKA production cross sections of positron emission tomography isotopes for in-vivo range verification in hadron therapy / Aricò, Giulia (CERN) ; Battistoni, Giuseppe (INFN, Milan ; TIFPA-INFN, Trento) ; Cerutti, Francesco (CERN) ; Horst, Felix (Darmstadt, GSI ; Mittelhessen U., Giessen) ; Mairani, Andrea (HITS, Heidelberg ; pavia cnao) ; Schuy, Christoph (Darmstadt, GSI) ; Weber, Uli (Darmstadt, GSI) ; Ferrari, Alfredo (CERN)
Protons and carbon ions have been extensively used for radiotherapy treatments, and in comparison to conventional radiotherapy, they allow a more conformal dose to the target tumor, especially in case of deep-seated tumors. However, the accuracy of hadron therapy treatments is affected by uncertainties in the particle range calculations. [...]
2020 - 4 p. - Published in : EPJ Web Conf. 239 (2020) 24001
In : International Conference on Nuclear Data for Science and Technology (ND 2019), Beijing, China, 19 - 24 May 2019, pp.24001
3.
Ion charge separation with new generation of nuclear emulsion films / Montesi, M.C. (Naples U. ; INFN, Naples) ; Lauria, A. (Naples U. ; INFN, Naples) ; Alexandrov, A. (INFN, Naples ; Naples U. ; Natl. U. Sci. Tech., Moscow ; Lebedev Inst.) ; Solestizi, L. Alunni (INFN, Perugia ; Perugia U.) ; Giovanni, Ambrosi (INFN, Perugia) ; Argirò, S. (Turin U. ; INFN, Turin) ; Diaz, R. (Havana, CEADEN) ; Bartosik, N. (INFN, Turin) ; Battistoni, G. (INFN, Milan) ; Belcari, N. (Pisa U. ; INFN, Pisa) et al.
In hadron therapy, the accelerated ions, interacting with the body of the patient, cause the fragmentation of both projectile and target nuclei. The fragments interact with the human tissues depositing energy both in the entrance channel and in the volume surrounding the tumor. [...]
2019 - 8 p. - Published in : Open Physics 17 (2019) 233-240 Fulltext: PDF;
4.
Monitoring Proton Therapy Through in-Beam PET: An Experimental Phantom Study / Topi, A (INFN, Pisa) ; Muraro, S (INFN, Pisa) ; Battistoni, G (INFN, Milan) ; Belcari, N (INFN, Pisa ; Pisa U.) ; Bisogni, M G (INFN, Pisa ; Pisa U.) ; Camarlinghi, N (INFN, Pisa ; Pisa U.) ; Del Guerra, A (INFN, Pisa ; Pisa U.) ; Ferrari, A (CERN) ; Kopec, R (Cracow, INP) ; Kraan, A C (INFN, Pisa) et al.
In this paper, we investigate the use of a positron emission tomography (PET) system to monitor the proton therapy. The monitoring procedure is based on the comparison between the β+ activity generated in the irradiated volume during the treatment, with the β+ activity distribution obtained with Monte Carlo (MC) simulation. [...]
2020 - 8 p. - Published in : IEEE Trans. Rad. Plasma Med. Sci. 4 (2020) 194-201
5.
Low statistics positron activity reconstruction methods for proton therapy / Muraro, S (Pisa U. ; INFN, Pisa) ; Camarlinghi, N (Pisa U. ; INFN, Pisa) ; Battistoni, G (INFN, Milan) ; Belcari, N (Pisa U. ; INFN, Pisa) ; Bisogni, M G (INFN, Pisa ; Pisa U.) ; Cristoforetti, L (Unlisted, IT) ; Del Guerra, A (Pisa U. ; INFN, Pisa) ; Ferrari, A (CERN) ; Fracchiolla, F (Unlisted, IT) ; Kraan, A (Pisa U. ; INFN, Pisa) et al.
Positron emission tomography (PET) is one of the most mature techniques for monitoring in ion beam therapy. PET allows to reconstruct the β$^{+}$ activity generated in the patient by the nuclear interaction of the ions. [...]
2019 - 2 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 936 (2019) 52-53
In : Frontier Detectors for Frontier Physics: XIV Pisa Meeting on Advanced Detectors, La Biodola, Isola D'elba, Italy, 27 May - 2 Jun 2018, pp.52-53
6.
The FOOT FragmentatiOn Of Target Experiment / Alexandrov, Andrey (INFN, Naples) ; Alpat, Behcet (INFN, Perugia) ; Ambrosi, Giovanni (INFN, Perugia) ; Argirò, Stefano (Turin U. ; INFN, Turin) ; Battistoni, Giuseppe (INFN, Milan) ; Bisogni, Maria Giuseppina (Pisa U. ; INFN, Pisa) ; Belcari, Nicola (Pisa U. ; INFN, Pisa) ; Biondi, Silvia (INFN, Bologna ; Bologna U.) ; Bruni, Graziano (INFN, Bologna) ; Camarlinghi, Niccolò (Pisa U. ; INFN, Pisa) et al.
In proton-therapy clinical practice a constant RBE equal to 1.1 is adopted, regardless of the demonstrated RBE variations, which depends on physical and biological parameters. Among other mechanisms, nuclear interactions might influence the proton-RBE due to secondary heavier particles produced by target fragmentation that can significantly contribute to the total dose: an un-wanted and undetermined increase of normal tissues complications probability may occur. [...]
Geneva : CERN, 2019 - 8 p. - Published in : CERN Proc.: 1 (2019) , pp. 305-312 Fulltext: PDF;
In : 15th International Conference on Nuclear Reaction Mechanisms, Varenna, Italy, 11 - 15 Jun 2018, pp.305-312
7.
INSIDE in-beam positron emission tomography system for particle range monitoring in hadrontherapy / Bisogni, Maria Giuseppina (U. Pisa (main)) ; Attili, Andrea (U. Turin (main)) ; Battistoni, Giuseppe (INFN, Italy) ; Belcari, Nicola (U. Pisa (main)) ; Camarlinghi, Niccoló (U. Pisa (main)) ; Cerello, Piergiorgio (INFN, Italy) ; Coli, Silvia (INFN, Italy) ; Del Guerra, Alberto (U. Pisa (main)) ; Ferrari, Alfredo (CERN) ; Ferrero, Veronica (U. Turin (main)) et al.
The quality assurance of particle therapy treatment is a fundamental issue that can be addressed by developing reliable monitoring techniques and indicators of the treatment plan correctness. Among the available imaging techniques, positron emission tomography (PET) has long been investigated and then clinically applied to proton and carbon beams. [...]
2016 - 12 p. - Published in : Journal of Medical Imaging 4 (2016) 011005
8.
Proton therapy treatment monitoring with the DoPET system: activity range, positron emitters evaluation and comparison with Monte Carlo predictions / Muraro, S (Pisa U. ; INFN, Pisa) ; Battistoni, G (INFN, Milan) ; Belcari, N (Pisa U. ; INFN, Pisa) ; Bisogni, M G (Pisa U. ; INFN, Pisa) ; Camarlinghi, N (Pisa U. ; INFN, Pisa) ; Cristoforetti, L (Trento Hospital, Trento) ; Guerra, A Del (Pisa U. ; INFN, Pisa) ; Ferrari, A (CERN) ; Fracchiolla, F (Trento Hospital, Trento) ; Morrocchi, M (Pisa U. ; INFN, Pisa) et al.
Ion beam irradiations can deliver conformal dose distributions minimizing damage to healthy tissues thanks to their characteristic dose profiles. Nevertheless, the location of the Bragg peak can be affected by different sources of range uncertainties: a critical issue is the treatment verification. [...]
2017 - 10 p. - Published in : JINST 12 (2017) C12026
In : 19th International Workshop on Radiation Imaging Detectors, Krakow, Poland, 2 - 6 Jul 2017, pp.C12026
9.
The Application of the Monte Carlo Code FLUKA in Radiation Protection Studies for the Large Hadron Collider / Battistoni, Giuseppe (INFN, Milan) ; Broggi, Francesco (INFN, Milan) ; Brugger, Markus (CERN) ; Campanella, Mauro (INFN, Milan) ; Carboni, Massimo (INFN, Legnaro) ; Empl, Anton (Houston U.) ; Fassò, Alberto (Jefferson Lab) ; Gadioli, Ettore (INFN, Milan) ; Cerutti, Francesco (CERN) ; Ferrari, Alfredo (CERN) et al.
2011 - Published in : Prog. Nucl. Sci. Tech. 2 (2011) 358-364 Fulltext: PDF; External link: Fulltext
In : Joint International Conference of the 7th Supercomputing in Nuclear Application and the 3rd Monte Carlo, Tokyo, Japan, 17 - 21 Oct 2010, pp.358-364
10.
Measurement of charged particle yields from therapeutic beams in view of the design of an innovative hadrontherapy dose monitor / Battistoni, G (INFN, Milan) ; Bellini, F (Rome U. ; INFN, Rome) ; Bini, F (U. Rome La Sapienza (main)) ; Collamati, F (Rome U. ; INFN, Rome) ; Collini, F (INFN, Milan) ; De Lucia, E (Frascati) ; Durante, M (Darmstadt, GSI) ; Faccini, R (Rome U. ; INFN, Rome) ; Ferroni, F (Rome U. ; INFN, Rome) ; Frallicciardi, P M (Enrico Fermi Ctr., Rome) et al.
Particle Therapy (PT) is an emerging technique, which makes use of charged particles to efficiently cure different kinds of solid tumors. The high precision in the hadrons dose deposition requires an accurate monitoring to prevent the risk of under-dosage of the cancer region or of over-dosage of healthy tissues. [...]
2015 - Published in : JINST 10 (2015) C02032 IOP Open Access article: PDF;

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