Junxin Lai scite author profile

Integrating T 1 -and T 2 -components of magnetic resonance (MR) imaging into a single particle has been demonstrated to be effective for improving the diagnostic accuracy. However, a T 1 -T 2 dual modal MR contrast agent with glioma targeting ability remains unexplored. In this study, we prepared gourd-shaped Fe 3 O 4 /MnO hybrid NPs with a size of 25 nm through a thermal decomposition method. The water dispersibility was then obtained via a ligand exchange process with carboxylic acid-terminated silane.The sequential conjugation of chlorotoxin (CTX) and Cy5.5 on the carboxyl groups of attached silane endowed Fe 3 O 4 /MnO hybrid NPs with near-infrared fluorescence and glioma-targeting characteristics.The in vitro studies confirmed the targeting ability of Fe 3 O 4 /MnO-Cy5.5-CTX NPs toward C6 glioma cells. The in vivo T 1 -T 2 dual modal MR imaging of glioma-bearing brain verified that the CTX conjugation led to a better contrast enhancement of the tumour tissue from the normal tissue both in T 1 and T 2 imaging, comparing to unconjugated NPs, which could enable more accurate diagnosis of gliomas.

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MnO nanoparticles with unique excitation-dependent fluorescence for multicolor cellular imaging and MR imaging of brain glioma

Lai

Wang

et al. 2018

Microchim Acta

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The authors describe MnO nanoparticles (NPs) with unique excitation-dependent fluorescence across the entire visible spectrum. These NPs are shown to be efficient optical nanoprobe for multicolor cellular imaging. Synthesis of the NPs is accomplished by a thermal decomposition method. The MnO NPs exhibit a high r relaxivity of 4.68 mM s and therefore give an enhanced contrast effect in magnetic resonance (MR) studies of brain glioma. The cytotoxicity assay, hemolysis analysis, and hematoxylin and eosin (H&E) staining tests verify that the MnO NPs are biocompatible. In the authors' perception, the simultaneous attributes of multicolor fluorescence and excellent MR functionality make this material a promising dual-modal nanoprobe for use in bio-imaging. Graphical abstract A direct method to synthesize fluorescent MnO NPs is reported. The NPs are biocompatible and have been successfully applied for multicolor cellular imaging and MR detection of brain glioma.

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Modulating the photoluminescence of europium oxide nanoparticles by controlling thermal decomposition conditions

Lai

Wang

Zhang

et al. 2019

Journal of Luminescence

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Junxin Lai

Carbon dots with red-shifted photoluminescence by fluorine doping for optical bio-imaging

Targeted imaging of brain gliomas using multifunctional Fe₃O₄/MnO nanoparticles

MnO nanoparticles with unique excitation-dependent fluorescence for multicolor cellular imaging and MR imaging of brain glioma

Modulating the photoluminescence of europium oxide nanoparticles by controlling thermal decomposition conditions

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Junxin Lai

Carbon dots with red-shifted photoluminescence by fluorine doping for optical bio-imaging

Targeted imaging of brain gliomas using multifunctional Fe3O4/MnO nanoparticles

MnO nanoparticles with unique excitation-dependent fluorescence for multicolor cellular imaging and MR imaging of brain glioma

Modulating the photoluminescence of europium oxide nanoparticles by controlling thermal decomposition conditions

Contact Info

Product

Resources

About

Targeted imaging of brain gliomas using multifunctional Fe₃O₄/MnO nanoparticles