212Pb in targeted radionuclide therapy: a review

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR

EJNMMI Radiopharmacy and Chemistry Pub Date : 2025-07-01 DOI:10.1186/s41181-025-00362-7

Jarred Michael Scaffidi-Muta, Andrew David Abell

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Abstract

Background

The selective delivery of α-emitting radionuclides is emerging as a highly effective form of cancer therapy. With a short range and high cytotoxicity, α-particles can selectively kill cancerous cells whilst minimising harm to surrounding healthy tissue. As the parent of the α-emitter ²¹²Bi, ²¹²Pb has seen increasing therapeutic use on account of its favourable chemistry, half-life, and decay properties. This review comprehensively discusses the clinical development of ²¹²Pb in recent years, particularly its production, chelation chemistry, and therapeutic adoption.

Main body

Improvements in generator technology and supply have overcome the historically limited availability of ²¹²Pb, enabling a surge of research in the field. Numerous bifunctional chelators have since been developed, which enable facile conjugation of ²¹²Pb to a plethora of tumour targeting carriers. Advancements in nuclear imaging techniques, and the use ²⁰³Pb as an imaging surrogate, have enabled accurate biodistribution and dosimetry information to inform preclinical studies. These factors have attracted considerable commercial interest in ²¹²Pb, culminating in the rapid translation of this radionuclide into the clinic, where it is being investigated in the treatment of a range of malignancies.

Conclusion

Radiotherapy with ²¹²Pb has shown enormous promise in preclinical and clinical studies. While challenges still remain before ²¹²Pb can be more widely adopted, remarkable progress has been made in addressing these. At present, the therapeutic potential of ²¹²Pb is only beginning to be realised.

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212Pb在放射性核素靶向治疗中的应用进展

背景：α-放射核素的选择性递送正在成为一种非常有效的癌症治疗形式。α-颗粒具有短距离和高细胞毒性，可以选择性地杀死癌细胞，同时最大限度地减少对周围健康组织的伤害。作为α-发射体212Bi的母体，由于其良好的化学、半衰期和衰变特性，212Pb已被越来越多地用于治疗。本文就近年来212Pb的生产、螯合化学及治疗应用等方面的临床进展作一综述。主体：发电机技术和供应的改进已经克服了历史上有限的212Pb可用性，使该领域的研究激增。许多双功能螯合剂已经开发出来，使212Pb与大量肿瘤靶向载体容易结合。核成像技术的进步，以及使用203Pb作为成像替代物，使得准确的生物分布和剂量学信息能够为临床前研究提供信息。这些因素吸引了对212Pb相当大的商业兴趣，最终使这种放射性核素迅速转化为临床，在治疗一系列恶性肿瘤方面正在进行研究。结论：212Pb放射治疗在临床前和临床研究中具有广阔的应用前景。虽然在21pb得到更广泛采用之前仍存在挑战，但在解决这些问题方面取得了显著进展。目前，212Pb的治疗潜力才刚刚开始实现。

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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