Developing ether and alcohol based extraction chromatography resins for purification of antimony-119 in nuclear medicine

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR

EJNMMI Radiopharmacy and Chemistry Pub Date : 2025-08-13 DOI:10.1186/s41181-025-00379-y

Aivija Grundmane, Illarion Dovhyi, Lauren Aburto-Kung, Steffen Happel, Caterina F Ramogida, Valery Radchenko

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Abstract

AbstractSection Background

Antimony-119 (¹¹⁹Sb, t_1/2 = 38.19 h) is an Auger electron emitting radionuclide of interest for radiopharmaceutical therapy. It can be directly produced by proton bombardment of tin-119 using low energy cyclotrons. The radiochemical separation methods available for recovering ¹¹⁹Sb from the bulk Sn target material are lacking, particularly with respect to matrix suitability for further applications.

AbstractSection Results

Eight new resins were successfully synthesized, evaluating combinations of two different resin support materials with three different chain lengths of ethers (dibutyl, dipentyl, dioctyl) as well as fluorinated alcohol as the impregnated extractant. All resins showed good stability, losing less than 1% of functional groups in HCl and water. Seven out of eight synthesized resins showed excellent capacity, retaining tens to hundreds of milligrams of Sb per gram of resin. Seven out of eight synthesized resins, as well as one of the resin supports showed good separation between Sb and Sn based on the distribution coefficient studies as well as dynamic elution studies.

AbstractSection Conclusions

Our tested resins may be applied for the separation of radiotracer amounts of Sb from bulk Sn target material. We propose the dibutyl ether functionalized divinylbenzene copolymer resin support (DBE-300 resin) as the best candidate, based on the following characteristics: (1) quantitative, concentrated elution of Sn offering compatibility with recycling of enriched ¹¹⁹Sn material; (2) near-quantitative (98%), concentrated recovery of ¹¹⁹Sb in ethanol, providing a matrix resistant to hydrolysis, easy to convert by evaporation, as well as toxicologically insignificant pre-clinically and even clinically.

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核医学中纯化锑-119用醚基和醇基萃取色谱树脂的研制

摘要锑-119 （119Sb, t1/2 = 38.19 h）是一种俄歇电子发射放射性核素，可用于放射性药物治疗。它可以用低能回旋加速器质子轰击tin-119直接产生。从大块锡靶材料中回收119Sb的放射化学分离方法是缺乏的，特别是在进一步应用的基质适用性方面。【摘要】结果成功合成了8种新型树脂，评价了两种不同的树脂载体材料与三种不同链长的醚（二丁基、二戊基、二辛基）和氟化醇作为浸渍萃取剂的组合。所有树脂均表现出良好的稳定性，在盐酸和水中官能团的损失小于1%。8种合成树脂中有7种表现出优异的性能，每克树脂保留数十到数百毫克Sb。根据分布系数研究和动态洗脱研究，8种合成树脂中有7种和1种树脂载体对锑锡的分离效果较好。结论本实验树脂可用于分离大块锡靶材料中痕量Sb的放射性示踪剂。基于以下特点，我们提出了二丁基醚功能化二乙烯基苯共聚物树脂载体（DBE-300树脂）作为最佳候选材料：(1)定量、浓缩洗脱锡，兼容富集119Sn材料的回收；(2)近定量（98%），乙醇中119Sb的浓缩回收，提供抗水解，易于蒸发转化，临床前甚至临床毒理学无关的基质。

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