Astatine-211 Radiopharmaceuticals; Status, Trends, and the Future.

IF 1.5 4区 医学 Q3 PHARMACOLOGY & PHARMACY
Mobina Rabiei, Mahboobeh Asadi, Hassan Yousefnia
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Abstract

The low range of alpha particles provides an opportunity to better target cancer cells theoretically leading to the introduction of interesting alpha emitter radiopharmaceuticals including 225Ac, 212Pb, etc. The combination of high energy and short range of alpha emitters differentiates targeted radiotherapy from other methods and reduces unwanted cytotoxicity of the cells around the tumoral tissue. Among interesting alpha emitters candidates for targeted therapy, 211At, one of the radioisotopes with the best optimal decay properties, shows great promise for targeted radiotherapy in some animal prostate cancer xenograft studies and bone micro tumors with significant effects compared to other beta and alpha emitters and also demonstrates interesting properties for clinical applications. However, production and application of this alpha emitter in the development of actinium-based radiopharmaceuticals is hampered by many obstacles. This mini-review demonstrates 211At production methods, chemical separation, radiolabeling procedures, 211At-radiopharmaceuticals and their clinical trials, transport, logistics, and costs and future trends in the field for ultimate clinical applications. This review showed that there are limited clinical trials on 211Ac-based radiopharmaceuticals, which is due to the low accessibility of this radioisotope and other limitations. However, the development programs of major industries indicate the development of 211Ac-based radiopharmaceuticals in the future.

Astatine-211放射性药物;现状、趋势和未来。
α粒子的低范围提供了更好地靶向癌症细胞的机会,理论上导致引入感兴趣的α发射器放射性药物,包括225Ac、212Pb等。高能和短距离α发射器的组合将靶向放射治疗与其他方法区分开来,并减少了肿瘤组织周围细胞的不必要的细胞毒性。在靶向治疗的感兴趣的α发射器候选物中,211At是具有最佳衰变特性的放射性同位素之一,在一些动物前列腺癌症异种移植物研究和骨微肿瘤中显示出靶向放射治疗的巨大前景,与其他β和α发射器相比具有显著效果,并且还显示出临床应用的感兴趣特性。然而,这种α发射体的生产和应用在基于锕的放射性药物的开发中受到许多障碍的阻碍。这篇小型综述展示了211At的生产方法、化学分离、放射性标记程序、211At放射性药物及其临床试验、运输、物流和成本以及最终临床应用领域的未来趋势。这篇综述表明,基于211Ac的放射性药物的临床试验有限,这是由于这种放射性同位素的可及性低和其他限制。然而,主要行业的发展计划表明,基于211Ac的放射性药物在未来的发展。
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
Current radiopharmaceuticals
Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-
CiteScore
3.20
自引率
4.30%
发文量
43
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