压制固体靶标生产 89Zr 及其在抗体标记中的应用。

IF 1.5 4区 医学 Q3 PHARMACOLOGY & PHARMACY
Anjli Shrivastav, Sonu Maurya, Manish Dixit, Sarita Kumari, Sanjay Gambhir
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引用次数: 0

摘要

目的:锆-89(89Zr,t1/2=3.27d)是正电子发射断层扫描(PET)免疫研究中使用的一种重要的+发射放射性核素,因其独特的特性和简单、经济的生产能力而需求增加。89Zr 的生产主要通过不同的靶制备方法,如电沉积、压制箔和火花等离子烧结等,通过固体天然钇靶来实现。在本研究中,我们研究了压制固体靶的方法:方法:将氧化钇(Y2O3)粉末压制成颗粒状,并堆叠在不同的背面支撑板上,如铂(Pt)、铌(Nb)和钽(Ta)。在 20µA 电流下,用大约 12 MeV 的质子束辐照目标 10-60 分钟。辐照后的靶材通过固相萃取法,用羟基氨基甲酸酯树脂进行人工或自动提纯。纯化后的 89Zr 采用伽马闪烁法进行分析,并通过脱氧胺(DFO)螯合计算比活度:结果:通过压制靶有效生产出 89Zr 放射性核素,产量为 20-30 MBq/µA.h,采用自动纯化法时,35 分钟就能完成纯化,平均回收率为 (87.46)%,纯度大于 98%;而手动纯化法需要 2 小时,回收率为 (91 ± 2)%,纯度大于 98%。生产率与报告的压制目标方法相当。用 89Zr-oxalate 进行脱氧胺(DFO)螯合,纯度大于 98%,比活度为 25-30 µCi/mmol:在这项研究中,我们探索了通过压制目标生产 89Zr,并通过手动或自动方法进行纯化,从而获得良好的放射性核素纯度。与 DFO 或其类似物的螯合具有良好的标记效率和稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pressed Solid Target Production of 89Zr and its Application for Antibody Labelling.

Objectives: Zirconium-89 ( 89Zr, t1/2=3.27d) is an important + emitting radionuclide used in Positron Emission Tomography (PET) immuno studies due to its unique characteristics and increased demand due to simple and cost-effective production capacity. Production of 89Zr is achieved primarily through solid natural yttrium targets via different target preparation methodologies, such as electrodeposition, pressed foils, and spark plasma sintering. In this study, we have investigated the pressed solid target methodology.

Methods: The Yttrium Oxide (Y2O3) powder was pressed to pellet form and stacked over a different back support plate, such as platinum (Pt), niobium (Nb), and tantalum (Ta). The target was irradiated with approximately 12 MeV proton beam for 10-60 minutes at 20µA current. The irradiated target was purified through a solid phase extraction method via hydroxamate-based resin by manual or automatic approach. The purified 89Zr was analyzed using gamma scintigraphy, and specific activity was calculated through Deferoxamine (DFO) chelation.

Results: 89Zr radionuclide via pressed target was effectively produced with a production yield of 20-30 MBq/µA.h, and the purification was achieved in 35 minutes with (87.46)% average recovery and >98% purity while using automated purification, but manual purification took 2 hours with (91 ± 2)% recovery and >98% purity. The production yield was comparable to the reported pressed target approach. Deferoxamine (DFO) chelation with 89Zr-oxalate was performed with purity >98% and specific activity of 25-30 µCi/mmol.

Conclusion: In this study, we explored the production of 89Zr by pressed targets and purification via manual or automated methods with good radionuclide purity. The chelation with DFO or its analog was performed with good labeling efficiency and stability

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来源期刊
Current radiopharmaceuticals
Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-
CiteScore
3.20
自引率
4.30%
发文量
43
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