Painful osseous metastasis resulting from castration-resistant prostate carcinoma is a common clinical problem. Historically, nuclear medicine offered several palliative beta-emitting radiopharmaceuticals targeting the skeleton with the goal of decreasing pain. However, these have largely been replaced by the alpha-emitting agent radium (Ra). Ra received Food and Drug Administration approval in 2013 for the treatment of metastatic castration-resistant prostate cancer with symptomatic bone metastases without visceral metastases. Ra offers an improved therapeutic profile due to its alpha-particle emissions resulting in a relatively higher linear energy transfer and lower particle range compared with beta-emitters. Ra also has demonstrated to increase overall survival in patients and to delay adverse skeletal events. Running a successful clinical nuclear therapy program with Ra requires a multidisciplinary team approach and this article suggests an implementation strategy from the authors' institution. Potential new nuclear radiopharmaceuticals still under investigation offering the future possibility of radioligand therapy are also discussed briefly.
American journal of clinical oncology. 2018 Sep 10 [Epub ahead of print]
Daniel J Wale, Benjamin L Viglianti, Milton D Gross, Alice Ferretti, Domenico Rubello, Ka Kit Wong
Department of Nuclear Medicine/Radiology, University of Michigan Hospital., Department of Radiology, Medical Physics, Santa Maria della Misericordia Hospital, Rovigo, Italy.