Endothelial Cell-derived Microparticles Loaded with Iron Oxide Nanoparticles: Feasibility of MR Imaging Monitoring in Mice

被引:35
作者
Al Faraj, Achraf [1 ,2 ]
Gazeau, Florence [1 ]
Wilhelm, Claire [1 ]
Devue, Cecile [3 ]
Guerin, Coralie L. [3 ]
Pechoux, Christine [4 ]
Paradis, Valerie
Clement, Olivier [3 ]
Boulanger, Chantal M. [3 ]
Rautou, Pierre-Emmanuel [3 ]
机构
[1] Univ Paris 07, CNRS, UMR 7057, Lab Matiere & Syst Complexes, Paris, France
[2] King Saud Univ, Coll Appl Med Sci, Dept Radiol Sci, Riyadh, Saudi Arabia
[3] Univ Paris 05, INSERM, U970, Paris Cardiovasc Res Ctr PARCC, Paris, France
[4] INRA, UR1196 Genom & Physiol Lactat, Jouy En Josas, France
关键词
MICROVESICLES; MANIPULATION; PROTAGONISTS; LACTADHERIN; CIRCULATION; CLEARANCE; VESICLES; NETWORK;
D O I
10.1148/radiol.11111329
中图分类号
R8 [特种医学]; R445 [影像诊断学];
学科分类号
1002 ; 100207 ; 1009 ;
摘要
Purpose: To assess the feasibility of loading iron oxide nanoparticles in endothelial microparticles (EMPs), thereby enabling their noninvasive monitoring with magnetic resonance (MR) imaging in mice. Materials and Methods: Experiments were approved by the French Ministry of Agriculture. Endothelial cells, first labeled with anionic superparamagnetic nanoparticles, were stimulated to generate EMPs, carrying the nanoparticles in their inner compartment. C57BL/6 mice received an intravenous injection of nanoparticle-loaded EMPs, free nanoparticles, or the supernatant of nanoparticle-loaded EMPs. A 1-week follow-up was performed with a 4.7-T MR imaging device by using a gradient-echo sequence for imaging spleen, liver, and kidney and a radial very-short-echo time sequence for lung imaging. Comparisons were performed by using the Student t test. Results: The signal intensity loss induced by nanoparticle-loaded EMPs or free nanoparticles was readily detected within 5 minutes after injection in the liver and spleen, with a more pronounced effect in the spleen for the magnetic EMPs. The kinetics of signal intensity attenuation differed for nanoparticle-loaded EMPs and free nanoparticles. No signal intensity changes were observed in mice injected with the supernatant of nanoparticle-loaded EMPs, confirming that cells had not released free nanoparticles, but only in association with EMPs. The results were confirmed by using Perls staining and immunofluorescence analysis. Conclusion: The strategy to generate EMPs with magnetic properties allowed noninvasive MR imaging assessment and follow-up of EMPs and opens perspectives for imaging the implications of these cellular vectors in diseases. (C) RSNA, 2012
引用
收藏
页码:169 / 178
页数:10
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