Issue 19, 2018

Smart assembly of Mn-ferrites/silica core–shell with fluorescein and gold nanorods: robust and stable nanomicelles for in vivo triple modality imaging

Abstract

Herein we report the synthesis of a resilient nanosystem based on silica-coated magnetic MnFe2O3 nanoparticles conjugated to fluorescein and PEGylated gold nanorods embedded in polymeric micelles (MnFe2O4@SiO2@GNRs@PMs), for magnetic–photoacoustic–optical triple-modality imaging. The magnetic relaxivity of the nanosystem has been evaluated, revealing high r2/r1 ratios that suggest the effectiveness of the nanosystem as the T2-contrast agent. In addition, contrast-based fluorescence imaging has been tested both in vitro and ex vivo, showing that the nanosystem exhibits the suitable optical properties of fluorescein, with contrast intensities comparable with previously reported results. Finally, photoacoustic, due to gold nanorods, performances of the nanosystem have been evaluated, revealing good linearity between concentration and photoacoustic response in the 25–250 nM concentration under irradiation at 690 nm. The results showed a contrast-to-noise ratio (CNR) as high as 60 in a mouse leg subcutaneously injected with the nanosystem. Biocompatibility studies revealed no hemolytic effect induced by the nanoconstruct, revealing the applicability of the studied diagnostic tool for medical studies.

Graphical abstract: Smart assembly of Mn-ferrites/silica core–shell with fluorescein and gold nanorods: robust and stable nanomicelles for in vivo triple modality imaging

Supplementary files

Article information

Article type
Paper
Submitted
15 Feb 2018
Accepted
03 Apr 2018
First published
06 Apr 2018

J. Mater. Chem. B, 2018,6, 2993-2999

Smart assembly of Mn-ferrites/silica core–shell with fluorescein and gold nanorods: robust and stable nanomicelles for in vivo triple modality imaging

I. Monaco, P. Armanetti, E. Locatelli, A. Flori, M. Maturi, S. Del Turco, L. Menichetti and M. Comes Franchini, J. Mater. Chem. B, 2018, 6, 2993 DOI: 10.1039/C8TB00453F

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