Feasibility of medical radioisotope production based on the proton beams at China Spallation Neutron Source

IF 3.6 1区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Bing Jiang, Bin-Bin Tian, Han-Tao Jing, Qi-Fan Dong
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引用次数: 0

Abstract

The utilization of a proton beam from the China Spallation Neutron Source (CSNS) for producing medical radioisotopes is appealing owing to its high current intensity and high energy. The medical isotope production based on the proton beam at the CSNS is significant for the development of future radiopharmaceuticals, particularly for the α-emitting radiopharmaceuticals. The production yield and activity of typical medical isotopes were estimated using the FLUKA simulation. The results indicate that the 300-MeV proton beam with a power of 100 kW at CSNS-II is highly suitable for proof-of-principle studies of most medical radioisotopes. In particular, this proton beam offers tremendous advantages for the large-scale production of alpha radioisotopes, such as 225Ac, whose theoretical production yield can reach approximately 57 Ci/week. Based on these results, we provide perspectives on the use of CSNS proton beams to produce radioisotopes for medical applications.

Abstract Image

利用中国中子源的质子束生产医用放射性同位素的可行性
利用中国溅射中子源(CSNS)的质子束生产医用放射性同位素因其高电流强度和高能量而颇具吸引力。利用中国溅射中子源的质子束生产医用同位素对未来放射性药物的开发具有重要意义,尤其是对α发射的放射性药物。利用 FLUKA 模拟估算了典型医用同位素的产量和活度。结果表明,CSNS-II 中功率为 100 千瓦的 300 兆电子伏特质子束非常适合大多数医用放射性同位素的原理验证研究。特别是,这种质子束在大规模生产阿尔法放射性同位素(如 225Ac)方面具有巨大优势,其理论生产量可达到约 57 Ci/周。基于这些结果,我们对利用 CSNS 质子束生产医用放射性同位素提出了展望。
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来源期刊
Nuclear Science and Techniques
Nuclear Science and Techniques 物理-核科学技术
CiteScore
5.10
自引率
39.30%
发文量
141
审稿时长
5 months
期刊介绍: Nuclear Science and Techniques (NST) reports scientific findings, technical advances and important results in the fields of nuclear science and techniques. The aim of this periodical is to stimulate cross-fertilization of knowledge among scientists and engineers working in the fields of nuclear research. Scope covers the following subjects: • Synchrotron radiation applications, beamline technology; • Accelerator, ray technology and applications; • Nuclear chemistry, radiochemistry, radiopharmaceuticals, nuclear medicine; • Nuclear electronics and instrumentation; • Nuclear physics and interdisciplinary research; • Nuclear energy science and engineering.
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