212Pb in targeted radionuclide therapy: a review
Jarred Michael Scaffidi-Muta, Andrew D. Abell
Abstract
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 212 Bi, 212 Pb has seen increasing therapeutic use on account of its favourable chemistry, half-life, and decay properties. This review comprehensively discusses the clinical development of 212 Pb 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 212 Pb, enabling a surge of research in the field. Numerous bifunctional chelators have since been developed, which enable facile conjugation of 212 Pb to a plethora of tumour targeting carriers. Advancements in nuclear imaging techniques, and the use 203 Pb as an imaging surrogate, have enabled accurate biodistribution and dosimetry information to inform preclinical studies. These factors have attracted considerable commercial interest in 212 Pb, 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 212 Pb has shown enormous promise in preclinical and clinical studies. While challenges still remain before 212 Pb can be more widely adopted, remarkable progress has been made in addressing these. At present, the therapeutic potential of 212 Pb is only beginning to be realised.