Particokinetics and Extrapulmonary Translocation of Intratracheally Instilled Ferric Oxide Nanoparticles in Rats and the Potential Health Risk Assessment

doi:10.1093/toxsci/kfn245

ToxSci Advance Access originally published online on November 20, 2008
Toxicological Sciences 2009 107(2):342-351; doi:10.1093/toxsci/kfn245

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Particokinetics and Extrapulmonary Translocation of Intratracheally Instilled Ferric Oxide Nanoparticles in Rats and the Potential Health Risk Assessment

Mo-Tao Zhu^*^,, Wei-Yue Feng^*^,1, Yun Wang^*^,, Bing Wang^*, Meng Wang^*, Hong Ouyang^*, Yu-Liang Zhao^* and Zhi-Fang Chai^*

^* Laboratory for Bio-Environmental Effects of Nanomaterials and Nanosafety and Key Laboratory of Nuclear Analytical Techniques, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100049, China Graduate School of Chinese Academy of Sciences, Beijing 100049, China

¹ To whom correspondence should be addressed at P.O. Box 918, Beijing 100049, China. Fax: (8610) 88235294. E-mail: fengwy{at}mail.ihep.ac.cn.

Received September 5, 2008; accepted November 7, 2008

Abstract

Exposure to nanoparticles has presented potential risks to humancardiorespiratory systems. Pulmonary retention and extrapulmonaryredistribution of inhaled nanoparticles have been consideredto be important contributing factors of cardiorespiratory diseases.In the present work, 22-nm ⁵⁹Fe₂O₃ nanoparticles (radioactiveisotope ⁵⁹Fe-labeled ferric oxide nanoparticles) were intratracheallyinstilled into the male Sprague-Dawley rats at a dose of 4 mg/rat.Extrapulmonary distribution of ⁵⁹Fe₂O₃ in organs and its metabolismin lung, blood, urine, and feces were measured for 50 days ofexposure. Phagocytosis and clearance of agglomerated nano-Fe₂O₃by monocytes/macrophages were observed by histopathology andinductively coupled plasma-mass spectrometry examination. Ourresults showed intratracheal-instilled nano-⁵⁹Fe₂O₃ could passthrough the alveolar-capillary barrier into systemic circulationwithin 10 min that consisted with one-compartment kinetic model.The nano-⁵⁹Fe₂O₃ in the lung was distributed to organs richin mononuclear phagocytes, including liver, spleen, kidney andtesticle. The plasma elimination half-life of nano-⁵⁹Fe₂O₃ was22.8 days and the lung clearance rate was 3.06 µg/day,indicating the systemic accumulation and lung retention hadoccurred. The deposited nano-Fe₂O₃ in interstitial lung wasprobably contributed by the particles escaping from alveolarmacrophages phagocytosis and macrophages clearance functionoverloading. Our results suggest that the effect of Fe₂O₃ nanoparticlesexposure, even at low concentration, should be assessed becauseof the potential lung and systemic cumulative toxicity of thenanoparticles.

Key Words: ferric oxide nanoparticle; extrapulmonary translocation; particokinetics; lung retention; health risk assessment.

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