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Magnetic interactions and in vitro study of biocompatible hydrocaffeic acid-stabilized Fe-Pt clusters as MRI contrast agents.

Nina KostevsekS HudoklinMateja Erdani KreftIgor SeršaA SepeZvonko JagličićJanja VidmarJanez ScancarSašo ŠturmSpomenka KobeKristina Žužek Rožman
Published in: RSC advances (2018)
A detailed magnetic study of separated Fe-Pt NPs and Fe-Pt clusters was performed to predict their optimal size and morphology for the maximum saturation magnetization, a factor that is known to influence the performance of a magnetic-resonance-imaging (MRI) contrast agent. Excellent stability and biocompatibility of the nanoparticle suspension was achieved using a novel coating based on hydrocaffeic acid (HCA), which was confirmed with a detailed Fourier-transform infrared spectroscopy (FTIR) study. An in vitro study on a human-bladder papillary urothelial neoplasm RT4 cell line confirmed that HCA-Fe-Pt nanoparticles showed no cytotoxicity, even at a very high concentration (550 μg Fe-Pt per mL), with no delayed cytotoxic effect being detected. This indicates that the HCA coating provides excellent biocompatibility of the nanoparticles, which is a prerequisite for the material to be used as a safe contrast agent for MRI. The cellular uptake and internalization mechanism were studied using ICP-MS and TEM analyses. Furthermore, it was shown that even a very low concentration of Fe-Pt nanoparticles (<10 μg mL -1 ) in the cells is enough to decrease the T 2 relaxation times by 70%. In terms of the MRI imaging, this means a large improvement in the contrast, even at a low nanoparticle concentration and an easier visualization of the tissues containing nanoparticles, proving that HCA-coated Fe-Pt nanoparticles have the potential to be used as an efficient and safe MRI contrast agent.
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