3D imaging of human cells using PIXEμCT

International Journal of PIXE Pub Date : 2014-01-01 DOI:10.1142/S0129083514500089
S. Matsuyama, K. Ishii, S. Toyama, K. Watanabe, S. Koshio, K. Kasahara, S. Ito, A. Terakawa, M. Fujiwara, Y. Suzuki, A. Carmona, Stéphane Roudeau, R. Ortega
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引用次数: 4

Abstract

We report imaging of human lung epithelial cells exposed to cobalt oxide (Co3O4) microparticles using three-dimensional (3D) particle-induced X-ray emission microcomputed tomography (PIXEμCT). The use of energy-selectable quasi-monochromatic low-energy X-rays generated via proton microbeam bombardment led to high-quality images. We also carried out two-dimensional (2D) micro-PIXE imaging. The 3D PIXEμCT imaging data are complementary with 2D micro-PIXE images and the CT value ratios of the cells show that the strong absorption stems from Co3O4. The 2D micro-PIXE analysis provides projection images of the elemental distribution, and this in combination with the 3D PIXEμCT imaging revealed details of the internal distribution of Co3O4, and hence provides insight into the mechanisms of Co3O4 toxicity via intracellular perinuclear accumulation.
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使用PIXEμCT对人体细胞进行三维成像
我们报告了使用三维(3D)粒子诱导的x射线发射微计算机断层扫描(PIXEμCT)对暴露于氧化钴(Co3O4)微粒的人肺上皮细胞的成像。通过质子微束轰击产生的能量可选择的准单色低能x射线的使用导致高质量的图像。我们还进行了二维(2D)微pixe成像。三维PIXEμCT成像数据与二维微pixe图像相补充,细胞的CT值比表明,强吸收来自Co3O4。二维微pixe分析提供了元素分布的投影图像,并结合三维PIXEμCT成像揭示了Co3O4内部分布的细节,从而深入了解了Co3O4通过细胞内核周积聚的毒性机制。
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International Journal of PIXE
International Journal of PIXE
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