Literature DB >> 31095372

Multimodal Positron Emission Tomography Imaging to Quantify Uptake of 89Zr-Labeled Liposomes in the Atherosclerotic Vessel Wall.

Mark E Lobatto1,2, Tina Binderup1,3, Philip M Robson1, Luuk F P Giesen1, Claudia Calcagno1, Julia Witjes1, Francois Fay1,4, Samantha Baxter1, Chang Ho Wessel1, Mootaz Eldib1, Jason Bini1, Sean D Carlin5, Erik S G Stroes6, Gert Storm7,8, Andreas Kjaer3, Jason S Lewis5,9, Thomas Reiner5,10, Zahi A Fayad1, Willem J M Mulder1,11,12, Carlos Pérez-Medina1,13.   

Abstract

Nanotherapy has recently emerged as an experimental treatment option for atherosclerosis. To fulfill its promise, robust noninvasive imaging approaches for subject selection and treatment evaluation are warranted. To that end, we present here a positron emission tomography (PET)-based method for quantification of liposomal nanoparticle uptake in the atherosclerotic vessel wall. We evaluated a modular procedure to label liposomal nanoparticles with the radioisotope zirconium-89 (89Zr). Their biodistribution and vessel wall targeting in a rabbit atherosclerosis model was evaluated up to 15 days after intravenous injection by PET/computed tomography (CT) and PET/magnetic resonance imaging (PET/MRI). Vascular permeability was assessed in vivo using three-dimensional dynamic contrast-enhanced MRI (3D DCE-MRI) and ex vivo using near-infrared fluorescence (NIRF) imaging. The 89Zr-radiolabeled liposomes displayed a biodistribution pattern typical of long-circulating nanoparticles. Importantly, they markedly accumulated in atherosclerotic lesions in the abdominal aorta, as evident on PET/MRI and confirmed by autoradiography, and this uptake moderately correlated with vascular permeability. The method presented herein facilitates the development of nanotherapy for atherosclerotic disease as it provides a tool to screen for nanoparticle targeting in individual subjects' plaques.

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Year:  2019        PMID: 31095372      PMCID: PMC7460274          DOI: 10.1021/acs.bioconjchem.9b00256

Source DB:  PubMed          Journal:  Bioconjug Chem        ISSN: 1043-1802            Impact factor:   4.774


  32 in total

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7.  Atherosclerotic plaque targeting mechanism of long-circulating nanoparticles established by multimodal imaging.

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