Nanoradiopharmaceuticals for Bone Cancer Metastasis Imaging.

Drug delivery systems are under intense investigation all around the world, especially in oncology research. Indeed, in some cases, like bone metastasis, nanodrugs may represent the last and best choice for both treatment and imaging of early cancer foci. Nuclear medicine has been using MDP labelled with 99mTc as radiopharmaceuticals for many years; however, their use as nanoradiopharmaceuticals is very innovative and creates a new way to establish radiopharmacy in this new scenario offered by nanotechnology. In this study we developed and tested nano-MDP-labelled with 99mTc in rats induced with bone cancer metastasis and the results showed that it may work in patients. However, some further experiments are required in order to initiate protocols in humans.

Biodistribution of nanoparticles: initial considerations.

Nanotechnology is attracting increasing attention worldwide. This study was made use of modern technology to decipher most of the intriguing biological aspects of nanoparticles. Labeling with technetium-99m ((99m)Tc) of six nanoparticles using different compositions and formulations, as well as complete biodistribution studies in mice was done. The results showed that the behaviors of nanoparticles were very different from each other. Mesoporous silica showed a high affinity for lung tissue, whereas polymeric nanoparticles were rapidly recognized and metabolized by the liver. The six nanoparticles showed different renal clearance times, suggesting that their area mechanisms of action were related to interaction and solubility. The labeling process in all samples showed similar results (all >99%). Biodistribution was demonstrated to be important for the study of nanoparticles, and could be used to predict the possible mechanism of action of nanoparticles.