Multimodal Radiobioconjugates of Magnetic Nanoparticles Labeled with Sc and Sc for Theranostic Application.

This study was performed to synthesize multimodal radiopharmaceutical designed for the diagnosis and treatment of prostate cancer. To achieve this goal, superparamagnetic iron oxide (SPIO) nanoparticles were used as a platform for targeting molecule (PSMA-617) and for complexation of two scandium radionuclides, Sc for PET imaging and Sc for radionuclide therapy. TEM and XPS images showed that the FeO NPs have a uniform cubic shape and a size from 38 to 50 nm.

Synthesis and morphological studies of Tc-99m-labeled lupulone-conjugated FeO@TiO nanocomposite, and in vitro cytotoxicity activity on prostate cancer cell lines.

The purpose of this study was to develop a multifunctional theranostic probe for imaging (magnetic resonance imaging [MRI] and single-photon emission computed tomography [SPECT]) and therapy (photodynamic therapy). For this purpose, Tc-99m-labeled lupulone-conjugated FeO@TiO nanocomposites (Tc-DTPA-FeO@TiO-HLP and Tc-DTPA-FeO@TiO-ALP nanocomposites) were synthesized. The average diameter of the nanocomposites was 171 ± 20 nm as seen on transmission electron microscopy images.

Toxicity testing of indocyanine green and fluorodeoxyglucose conjugated iron oxide nanoparticles with and without exposure to a magnetic field.

Iron nanoparticles (MNPs) are known to induce membrane damage and apoptosis of cancer cells. In our study we determined whether FDG coupled with iron oxide magnetic nanoparticles can exert the same destructive effect on cancer cells. This research study presents data involving NIC-H727 human lung, bronchus epithelial cells exposed to conjugated fluorodeoxyglucose conjugated with iron-oxide magnetic nanoparticles and indocyanine green (ICG) dye (FDG-MNP-ICG), with and without the application of a magnetic field.

A novel anti-angiogenic radio/photo sensitizer for prostate cancer imaging and therapy: Zr-Pt@TiO-SPHINX, synthesis and in vitro evaluation.

Prostate cancer is the most common malignancy and leading cause of cancer deaths in men. Thus, the development of novel strategies for performing combined prostate cancer imaging and therapy methods is crucial and could have a significant impact on patient care. This current study aimed to design a multimodality nanoconjugate to be used for both PET and optical imaging and as a therapeutic radio/photo sensitizer and anti-angiogenesis agent.

Effects of fluorodeoxyglucose magnetic nanoparticles on NCI-H727 and SH-SY5Y cancer cells.

We present a report regarding the cytotoxic effects of iron-based magnetic nanoparticles conjugated with fluorodeoxyglucose (FDG-mNPs) on the viability of NCI-H727 and SH-SY5Y cancer cells. MTT assays were performed to determine cell viability in treated cancer cells grown under standard 2D culture conditions. FDG-mNP concentrations of 0.