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Literature DB >> 27109431

Long circulating reduced graphene oxide-iron oxide nanoparticles for efficient tumor targeting and multimodality imaging.

Cheng Xu¹, Sixiang Shi, Liangzhu Feng, Feng Chen, Stephen A Graves, Emily B Ehlerding, Shreya Goel, Haiyan Sun, Christopher G England, Robert J Nickles, Zhuang Liu, Taihong Wang, Weibo Cai.

Abstract

Polyethylene glycol (PEG) surface modification is one of the most widely used approaches to improve the solubility of inorganic nanoparticles, prevent their aggregation and prolong their in vivo blood circulation half-life. Herein, we developed double-PEGylated biocompatible reduced graphene oxide nanosheets anchored with iron oxide nanoparticles (RGO-IONP-(1st)PEG-(2nd)PEG). The nanoconjugates exhibited a prolonged blood circulation half-life (∼27.7 h) and remarkable tumor accumulation (>11 %ID g(-1)) via an enhanced permeability and retention (EPR) effect. Due to the strong near-infrared absorbance and superparamagnetism of RGO-IONP-(1st)PEG-(2nd)PEG, multimodality imaging combining positron emission tomography (PET) imaging with magnetic resonance imaging (MRI) and photoacoustic (PA) imaging was successfully achieved. The promising results suggest the great potential of these nanoconjugates for multi-dimensional and more accurate tumor diagnosis and therapy in the future.

Entities: Chemical Disease Gene Species

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Year: 2016 PMID： 27109431 PMCID： PMC4919229 DOI： 10.1039/c5nr09193d

Source DB: PubMed Journal: Nanoscale ISSN： 2040-3364 Impact factor: 7.790

40 in total

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6. Encapsulating gold nanoparticles or nanorods in graphene oxide shells as a novel gene vector.

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7. Synthesis of 64Cu-labeled magnetic nanoparticles for multimodal imaging.

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9. Intrinsically germanium-69-labeled iron oxide nanoparticles: synthesis and in-vivo dual-modality PET/MR imaging.

Authors: Rubel Chakravarty; Hector F Valdovinos; Feng Chen; Christina M Lewis; Paul A Ellison; Haiming Luo; M Elizabeth Meyerand; Robert J Nickles; Weibo Cai
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Review 10. Surface engineering of graphene-based nanomaterials for biomedical applications.

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Journal: Bioconjug Chem Date: 2014-08-18 Impact factor: 4.774

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Review 4. Radiolabeled inorganic nanoparticles for positron emission tomography imaging of cancer: an overview.

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Review 5. Positron emission tomography and nanotechnology: A dynamic duo for cancer theranostics.

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6. Accelerated Blood Clearance Phenomenon Reduces the Passive Targeting of PEGylated Nanoparticles in Peripheral Arterial Disease.

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Journal: ACS Appl Mater Interfaces Date: 2016-07-07 Impact factor: 9.229