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High relaxivity Gd3+-based organic nanoparticles for efficient magnetic resonance angiography

Zhuang Liu, Menglong Zhao, Han Wang, Zi Fu, Hongbo Gao, Weijun Peng, Dalong Ni, Wei Tang, Yajia Gu

2022Journal of Nanobiotechnology16 citationsDOIOpen Access PDF

Abstract

Abstract Contrast-enhanced MR angiography (MRA) is a critical technique for vascular imaging. Nevertheless, the efficacy of MRA is often limited by the low rate of relaxation, short blood-circulation time, and metal ion-released potential long-term toxicity of clinical available Gd-based contrast agents. In this work, we report a facile and efficient strategy to achieve Gd-chelated organic nanoparticles with high relaxivity for T 1 -weighted MRA imaging. The Gd-chelated PEG-TCPP nanoparticles (GPT NPs) have been engineered composite structured consisting of Gd-chelated TCPP and PEG. The spherical structure of TCPP offers more chemical sites for Gd 3+ coordination to improve the relaxivity and avoid leakage of the Gd 3+ ions. The synthesized GPT NPs exhibit a high relaxation rate of 35.76 mM − 1 s − 1 at 3.0 T, which is higher than the rates for most reported MR contrast agents. Therefore, GPT NPs can be used for MRA with much stronger vascular signals, longer circulation time, and high-resolution arterial vascular visualization than those using clinical MR contrast agents at the same dose. This work may make the T 1 MRI contrast agents for high-resolution angiography possible and offer a new candidate for preclinical and clinical applications of MR vascular imaging and vascular disease diagnosis. Graphical Abstract

Topics & Concepts

ChelationMagnetic resonance imagingMagnetic resonance angiographyNanoparticleMRI contrast agentNuclear magnetic resonanceContrast (vision)PEG ratioAngiographyGadoliniumMaterials scienceChemistryRadiologyBiomedical engineeringNanotechnologyMedicineComputer scienceInorganic chemistryArtificial intelligenceFinanceEconomicsPhysicsMetallurgyLanthanide and Transition Metal ComplexesAdvanced MRI Techniques and ApplicationsMagnetism in coordination complexes
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