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Ferritin surplus in mouse spleen 14 months after intravenous injection of iron oxide nanoparticles at clinical dose

Ferritin surplus in mouse spleen 14 months after intravenous injection of iron oxide nanoparticles at clinical dose
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摘要 In this study, we followed the biodegradation of ultra-small superparamagnetic iron oxide nanoparticles injected intravenously at clinical doses in mice. An advanced fitting procedure for magnetic susceptibility curves and low- temperature hysteresis loops was used to fully characterize the magnetic size distribution as well as the magnetic anisotropy energy of the injected P904 nano- particles (Guerbet Laboratory). Additional magnetometry measurements and transmission electronic microscopy observations were systematically performed to examine dehydrated samples from the spleen and liver of healthy C57B16 mice after nanoparticle injection, with sacrifice of the mice for up to 14 months. At 3 months after injection, the magnetic properties of the spleen and liver were dramatically different. While the liver showed no magnetic signals other than those also present in the reference species, the spleen showed an increased magnetic signal attributed to ferritin. This surplus of ferritin remained constant up to 14 months after injection. In this study, we followed the biodegradation of ultra-small superparamagnetic iron oxide nanoparticles injected intravenously at clinical doses in mice. An advanced fitting procedure for magnetic susceptibility curves and low- temperature hysteresis loops was used to fully characterize the magnetic size distribution as well as the magnetic anisotropy energy of the injected P904 nano- particles (Guerbet Laboratory). Additional magnetometry measurements and transmission electronic microscopy observations were systematically performed to examine dehydrated samples from the spleen and liver of healthy C57B16 mice after nanoparticle injection, with sacrifice of the mice for up to 14 months. At 3 months after injection, the magnetic properties of the spleen and liver were dramatically different. While the liver showed no magnetic signals other than those also present in the reference species, the spleen showed an increased magnetic signal attributed to ferritin. This surplus of ferritin remained constant up to 14 months after injection.
作者 Alexandre Tamion Matthias Hillenkamp Arnaud Hillion Valentin A. Maraloiu Ioana D. Vlaicu Mariana Stefan Daniela Ghica Hugo Rositi Fabien Chauveau Marie-Genevieve Blanchin Marlene Wiart Veronique Dupuis
机构地区 Institut Lumiere Matiere National Institute of Materials Physics CNRS CRNL-BIORAN
出处 《Nano Research》 SCIE EI CAS CSCD 2016年第8期2398-2410,共13页 纳米研究(英文版)
关键词 nanoparticles BIODEGRADATION iron oxide NANOMAGNETISM contrast agent nanoparticles,biodegradation,iron oxide,nanomagnetism,contrast agent
分类号 O [理学]
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参考文献37

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Nano Research
2016年 第8期

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