Jonathan Gunn scite author profile

Magnetic nanoparticles (MNPs) represent a class of non-invasive imaging agents that have been developed for magnetic resonance (MR) imaging. These MNPs have traditionally been used for disease imaging via passive targeting, but recent advances have opened the door to cellular-specific targeting, drug delivery, and multi-modal imaging by these nanoparticles. As more elaborate MNPs are envisioned, adherence to proper design criteria (e.g. size, coating, molecular functionalization) becomes even more essential. This review summarizes the design parameters that affect MNP performance in vivo, including the physicochemical properties and nanoparticle surface modifications, such as MNP coating and targeting ligand functionalizations that can enhance MNP management of biological barriers. A careful review of the chemistries used to modify the surfaces of MNPs is also given, with attention paid to optimizing the activity of bound ligands while maintaining favorable physicochemical properties.

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Optical and MRI Multifunctional Nanoprobe for Targeting Gliomas

Veiseh

et al. 2005

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A multifunctional nanoprobe capable of targeting glioma cells, detectable by both magnetic resonance imaging and fluorescence microscopy, was developed. The nanoprobe was synthesized by coating iron oxide nanoparticles with covalently bound bifunctional poly(ethylene glycol) (PEG) polymer, which were subsequently functionalized with chlorotoxin and the near-infrared fluorescing molecule Cy5.5. Both MR imaging and fluorescence microscopy showed significant preferential uptake of the nanoparticle conjugates by glioma cells. Such a nanoprobe could potentially be used to image resections of glioma brain tumors in real time and to correlate preoperative diagnostic images with intraoperative pathology at cellular-level resolution.

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PEG-grafted chitosan as an injectable thermosensitive hydrogel for sustained protein release

Bhattarai

Ramay

Gunn

et al. 2005

Journal of Controlled Release

607

359

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Jonathan Gunn

Chitosan-based hydrogels for controlled, localized drug delivery

Design and fabrication of magnetic nanoparticles for targeted drug delivery and imaging

Optical and MRI Multifunctional Nanoprobe for Targeting Gliomas

PEG-grafted chitosan as an injectable thermosensitive hydrogel for sustained protein release

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