Radiopharmaceutical Chemistry and Drug Development-What's Changed?

Radiation oncologists and nuclear medicine physicians have seen a resurgence in the clinical use of radiopharmaceuticals for the curative or palliative treatment of cancer. To enable the discovery and the development of new targeted radiopharmaceutical treatments, the United States National Cancer Institute has adapted its clinical trial enterprise to accommodate the requirements of a development program with investigational agents that have a radioactive isotope as part of the studied drug product. One change in perspective has been the consideration of investigational radiopharmaceuticals as drugs, with maximum tolerable doses determined by normal organ toxicity frequency like in drug clinical trials. Other changes include new clinical trial enterprise elements for biospecimen handling, adverse event reporting, regulatory conduct, writing services, drug master files, and reporting of patient outcomes. Arising from this enterprise, the study and clinical use of alpha-particle and beta-particle emitters have emerged as an important approach to cancer treatment. Resources allocated to this enterprise have brought forward biomarkers of molecular pathophysiology now used to select treatment or to evaluate clinical performance of radiopharmaceuticals. The clinical use of diagnostic and therapeutic radionuclide pairs is anticipated to accelerate radiopharmaceutical clinical development. Published by Elsevier Inc.

Automated summary

Radiation oncologists and nuclear medicine physicians have observed a resurgence in the clinical use of radiopharmaceuticals for cancer treatment. The United States National Cancer Institute has adapted its clinical trial enterprise to facilitate the discovery and development of new targeted radiopharmaceutical treatments, viewing investigational radiopharmaceuticals as drugs with maximum tolerable doses determined by normal organ toxicity frequency. This shift in perspective has led to the emergence of alpha-particle and beta-particle emitters as a significant approach to cancer treatment, with resources allocated to biomarkers of molecular pathophysiology now used to select treatment or evaluate clinical performance of radiopharmaceuticals.