Synthesis and characterization of magnetic dextran nanogel doped with iron oxide nanoparticles as magnetic resonance imaging probe

Abstract

Magnetic hybrid nanogels composed of magnetic nanoparticles and polymer hydrogel matrix have drawn much attention because of their unique superparamagnetic properties and biocompatibility as biomaterials. In this study, a facile method was developed for the preparation of iron oxide nanoparticle-loaded magnetic dextran nanogel as magnetic resonance imaging (MRI) probe. Water soluble superparamagnetic iron oxide nanocrystals (Fe₃O₄) was pre-synthesized and physically doped into a Schiff base-containing dextran nanogel formed using W/O microemulsion as nanoreactor. Magnetic dextran nanogel (Fe₃O₄@Dex) with particle size of 300-1000 nm was obtained with multiple Fe₃O₄ nanoparticles randomly encapsulated in the hydrogel networks. Magnetization and T₂ relaxivity study shows that the resulted magnetic nanogel has similar superparamagneitc behaviors with single Fe₃O₄ nanocrystals, and relatively higher T₂ relaxivity (277.2 mM_Fe^-1·s^-1) as MRI probe. Notably, Schiff base linkages and aldehyde groups on the dextran hydrogel matrix endow the magnetic nanogel with pH-sensitiveness and reactive groups for further modifications, which make the magnetic dextran nanogel a promising nanoplatform as MRI-guided drug delivery system with acid environment-responsiveness.

Keywords: Dextran; Magnetic nanogel; Magnetic resonance imaging.