Gadolinium oxysulfide-coated gold nanorods with improved stability and dual-modal magnetic resonance/photoacoustic imaging contrast enhancement for cancer theranostics.

Author(s) Guo, T.; Lin, Y.; Li, Z.; Chen, S.; Huang, G.; Lin, H.; Wang, J.; Liu, G.; Yang, H.H.
Journal Nanoscale
Date Published 2017 Jan 07
Abstract

Gold nanorods (GNRs) are emerging as a promising nanoplatform for cancer theranostics because of their unique optical properties. However, they still suffer from many limitations, such as high cytotoxicity, low thermodynamic and biological stability, and a tedious process for integrating other imaging modalities, for further practical biomedical applications. In this work, a strategy by one-step coating of Gd2O2S around GNRs is reported to address these limitations of GNRs. After the coating of the Gd2O2S shell, the as-fabricated Gd2O2S coated GNRs (GNRs@Gd2O2S) show enhanced biocompatibility and photostability, and tunable localized surface plasmon resonance. The strong absorption in the near-infrared region renders GNRs@Gd2O2S outstanding photoacoustic imaging and photothermal therapy capabilities. Moreover, owing to the T1 shortening ability of Gd2O2S, the GNRs@Gd2O2S also show an excellent T1 MRI contrast performance. The GNRs@Gd2O2S thus can serve as a versatile nanoplatform for cancer theranostics combining dual-modal imaging and photothermal therapy.

DOI 10.1039/c6nr08281e
ISSN 2040-3372
Citation Guo T, Lin Y, Li Z, Chen S, Huang G, Lin H, et al. Gadolinium oxysulfide-coated gold nanorods with improved stability and dual-modal magnetic resonance/photoacoustic imaging contrast enhancement for cancer theranostics. Nanoscale. 2017;9(1):56-61.

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