Silica coated iron/iron oxide nanoparticles as a nano-platform for T2 weighted magnetic resonance imaging

Paul Mathieu, Yannick Coppel, Marc Respaud, Quyen T. Nguyen, Sébastien Boutry, Sophie Laurent, Dimitri Stanicki, Céline Henoumont, Fernando Novio, Julia Lorenzo, David Montpeyó, Catherine Amiens*

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

23 Citations (Scopus)

Abstract

The growing concern over the toxicity of Gd-based contrast agents used in magnetic resonance imaging (MRI) motivates the search for less toxic and more effective alternatives. Among these alternatives, iron–iron oxide (Fe@FeOx) core-shell architectures have been long recognized as promising MRI contrast agents while limited information on their engineering is available. Here we report the synthesis of 10 nm large Fe@FeOx nanoparticles, their coating with a 11 nm thick layer of dense silica and functionalization by 5 kDa PEG chains to improve their biocompatibility. The nanomaterials obtained have been characterized by a set of complementary techniques such as infra-red and nuclear magnetic resonance spectroscopies, transmission electron microscopy, dynamic light scattering and zetametry, and magnetometry. They display hydrodynamic diameters in the 100 nm range, zetapotential values around −30 mV, and magnetization values higher than the reference contrast agent RESOVIST®. They display no cytotoxicity against 1BR3G and HCT116 cell lines and no hemolytic activity against human red blood cells. Their nuclear magnetic relaxation dispersion (NMRD) profiles are typical for nanomaterials of this size and magnetization. They display high r2 relaxivity values and low r1 leading to enhanced r2/r1 ratios in comparison with RESOVIST®. All these data make them promising contrast agents to detect early stage tumors.

Original languageEnglish
Article number4629
JournalMolecules
Volume24
Issue number24
DOIs
Publication statusPublished - 17 Dec 2019

Keywords

  • MRI
  • Nanochemistry
  • Nanomaterials
  • Surface functionalization
  • Toxicity

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