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Production of an 15O beam using a stable oxygen ion beam for in-beam PET imaging
https://repo.qst.go.jp/records/47644
https://repo.qst.go.jp/records/476442be20c05-8ab3-46b8-ae18-e45fda620947
Item type | 学術雑誌論文 / Journal Article(1) | |||||
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公開日 | 2017-02-15 | |||||
タイトル | ||||||
タイトル | Production of an 15O beam using a stable oxygen ion beam for in-beam PET imaging | |||||
言語 | ||||||
言語 | eng | |||||
資源タイプ | ||||||
資源タイプ識別子 | http://purl.org/coar/resource_type/c_6501 | |||||
資源タイプ | journal article | |||||
アクセス権 | ||||||
アクセス権 | metadata only access | |||||
アクセス権URI | http://purl.org/coar/access_right/c_14cb | |||||
著者 |
Mohammadi, Akram
× Mohammadi, Akram× Yoshida, Eiji× Tashima, Hideaki× Nishikido, Fumihiko× Inaniwa, Taku× Kitagawa, Atsushi× Yamaya, Taiga× Mohammadi Akram× 吉田 英治× 田島 英朗× 錦戸 文彦× 稲庭 拓× 北川 敦志× 山谷 泰賀 |
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抄録 | ||||||
内容記述タイプ | Abstract | |||||
内容記述 | In advanced ion therapy, the 15O ion beam is a promising candidate to treat hypoxic tumors and simultaneously monitor the delivered dose to a patient using PET imaging. This study aimed at production of an 15O beam by projectile fragmentation of a stable 16O beam in an optimal material, followed by in-beam PET imaging using a prototype OpenPET system, which was developed in the authors’ group. The study was carried out in three steps: selection of the optimal target based on the highest production rate of 15O fragments; experimental production of the beam using the optimal target in the Heavy Ion Medical Accelerator Chiba (HIMAC) secondary beam course; and realization of in-beam PET imaging for the produced beam. The optimal target evaluations were done using the Monte Carlo simulation code PHITS. The fluence and mean energy of the secondary particles were simulated and the optimal target was selected based on the production rate of 15O fragments. The highest production rate of 15O was observed for a liquid hydrogen target, 3.27% for a 53 cm thick target from the 16O beam of 430 MeV/u. Since liquid hydrogen is not practically applicable in the HIMAC secondary beam course a hydrogen-rich polyethylene material, which was the second optimal target from the simulation results, was selected as the experimental target. Three polyethylene targets with thicknesses of 5, 11 or 14 cm were used to produce the 15O beam without any degrader in the beam course. The highest production rate was measured as around 0.87% for the 11 cm thick polyethylene target from the 16O beam of 430 MeV/u when the angular acceptance and momentum acceptance were set at ±13 mrad and ±2.5%, respectively. The purity of the produced beam for the three targets were around 75%, insufficient for clinical application, but it was increased to 97% by inserting a wedge shape aluminum degrader with a thickness of 1.76 cm into the beam course and that is sufficiently high. In-beam PET imaging was also performed for all produced beams using the OpenPET system. The purity improvement of the produced 15O beams was confirmed from the PET images. | |||||
書誌情報 |
Nuclear Instruments and Methods in Physics Research A 巻 849, p. 76-82, 発行日 2017-01 |
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出版者 | ||||||
出版者 | ELSEVIER | |||||
DOI | ||||||
識別子タイプ | DOI | |||||
関連識別子 | 10.1016/j.nima.2016.12.028 | |||||
関連サイト | ||||||
識別子タイプ | DOI | |||||
関連識別子 | http://dx.doi.org/10.1016/j.nima.2016.12.028 | |||||
関連名称 | http://dx.doi.org/10.1016/j.nima.2016.12.028 |