Radiolabeled Vitamins and Nanosystems as Potential Agents in Oncology Theranostics: Developed Approaches and Future Perspectives
Ghazal Basirinia, Albert Comelli, Pierpaolo Alongi, Muhammad Ali, Giuseppe Salvaggio, Costanza Longo, Domenico Di Raimondo, Antonino Tuttolomondo, Viviana Benfante

TL;DR
This paper reviews how radiolabeled vitamins and nanosystems can be used for both diagnosing and treating cancer, highlighting their potential in precision medicine.
Contribution
The paper provides a critical review of current advances and proposes future directions for radiolabeled vitamins and nanosystems in oncology theranostics.
Findings
Radiolabeled vitamins like B9 and B12 show promise due to their targeting properties in tumor cells.
Nanoparticles functionalized with vitamins and labeled with isotopes could enable dual diagnostic and therapeutic functions.
Current studies lack sufficient translational applicability for clinical use in radiotheranostics.
Abstract
Theranostic approaches employing radioactive materials have emerged as innovative strategies that integrate molecular imaging with targeted therapy using nanosystems, thereby advancing the paradigm of precision medicine in oncology. Each year, substantial research efforts are dedicated to developing molecular probes capable of detecting early-stage tumors, with improved efficacy and reduced toxicity to the surrounding healthy tissues. Radiopharmaceuticals based on vitamins and nanoparticles are among the most promising developments in this field, as they possess a high level of specificity and low toxicity. Vitamin B9 and vitamin B12 represent notable examples, as their targeting properties exploit the overexpression of corresponding receptors in tumor cells. In this context, future directions may include the radiolabeling of nanoparticles functionalized with these vitamins using…
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Taxonomy
TopicsRadiopharmaceutical Chemistry and Applications · Boron Compounds in Chemistry · Nanoplatforms for cancer theranostics
