Biological carriers have emerged as significant tools to deliver radionuclides in nuclear medicine, providing a meaningful perspective for tumor imaging and treatment. Various radionuclide-labeled biological carriers have been developed to meet the needs of biomedical applications. This review introduces the principles of radionuclide-mediated imaging and therapy and the selected criteria of them, as well as a comprehensive description of the characteristics and functions of representative biological carriers including bacteria, cells, viruses, and their biological derivatives, emphasizing the labeled strategies of biological carriers combined with radionuclides. Subsequently, we in-depth introduce the application of radionuclide-labeled biological carriers in tumor imaging and treatment, including the imaging of the behaviors of biological carriers in vivo and tumor metastasis and the tumor treatment by radionuclide therapy, plus other strategies and radiation-induced photodynamic therapy. Finally, the challenges and prospects of radionuclide-labeled biological carriers are discussed to improve the shortcomings of this innovative platform and promote clinical transformation in the field of medical imaging.
Keywords: PET/SPECT imaging; biological carriers; drug delivery; labeling strategy; radionuclides; tumor treatment.