Spectral Comparison of Neutron-Irradiated Natural and Enriched Ytterbium Targets for Lu-177 Production

IF 0.6 Q4 NUCLEAR SCIENCE & TECHNOLOGY

Atom Indonesia Pub Date : 2019-11-13 DOI:10.17146/aij.2019.930

M. Maiyesni, S. Febriana, I. Kambali, D. Kurniasih

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引用次数: 1

Abstract

Beta-emitting radioisotope 177 Lu has been suggested for radioimmunotherapy, peptide receptor radionuclide therapy, or another radionuclide therapy due to its excellent properties for destroying cancer cells. In this experimental investigation, natural ytterbium ( nat Yb) and enriched 176 Yb targets were irradiated with thermal neutrons at 1.2×10 14 cm -2 s -1 neutron flux for 95 hours. Using a high-purity germanium (HPGe) detector-based spectroscopy system, the post-irradiated targets were measured and the produced radioisotopes were identified according to their gamma ray emissions. Experimental results indicated that several radioisotopes such as 169 Yb and 175 Yb dominate the post-irradiated nat Yb target, though a relatively weak intensity of 177 Lu was also recorded. In contrast, 177 Lu radioisotope dominates the gamma rays observed in the post-irradiated enriched 176 Yb target following elution with HNO 3 solution. For the first time, evidence is found of 175 Yb impurity in the post-neutron-irradiated enriched 176 Yb 2 O 3 target as a result of 176 Yb(n,2n) 175 Yb nuclear reaction. This work recommends future 177 Lu radioisotope production using enriched 176 Yb 2 O 3 target.

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用于Lu-177生产的中子辐照天然和富集钇靶的光谱比较

释放β的放射性同位素177 Lu已被建议用于放射免疫治疗、肽受体放射性核素治疗或其他放射性核素治疗，因为它具有破坏癌细胞的优异性能。在本实验中，用热中子在1.2×10 14 cm -2 s -1中子通量下辐照天然钇(nat Yb)和富集的176个钇靶95小时。利用基于高纯度锗(HPGe)探测器的光谱系统，测量了辐照后的目标，并根据其伽马射线发射确定了产生的放射性同位素。实验结果表明，虽然也记录到相对较弱的177 Lu强度，但辐照后的靶体主要是169 Yb和175 Yb等几种放射性同位素。相反，在hno3溶液洗脱后辐照富集的176 Yb靶中，观察到的伽马射线以177 Lu放射性同位素为主。首次在中子辐照后富集的176 yb2o3靶中发现了175yb杂质的证据，这是176yb (n,2n) 175yb核反应的结果。这项工作建议未来利用富集的176 yb2o3靶生产177 Lu放射性同位素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Atom Indonesia NUCLEAR SCIENCE & TECHNOLOGY-

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： The focus of Atom Indonesia is research and development in nuclear science and technology. The scope of this journal covers experimental and analytical research in nuclear science and technology. The topics include nuclear physics, reactor physics, radioactive waste, fuel element, radioisotopes, radiopharmacy, radiation, and neutron scattering, as well as their utilization in agriculture, industry, health, environment, energy, material science and technology, and related fields.