光谱（多能量） CT 可区分 MICE 中的碘和钡造影剂。

Spectroscopic (multi-energy) CT distinguishes iodine and barium contrast material in MICE.

机构信息

Department of Radiology, University of Otago, Christchurch, PO Box 4345, Christchurch, New Zealand.

出版信息

Eur Radiol. 2010 Sep;20(9):2126-34. doi: 10.1007/s00330-010-1768-9. Epub 2010 Mar 23.

DOI:10.1007/s00330-010-1768-9

PMID:20309554

Abstract

OBJECTIVE

Spectral CT differs from dual-energy CT by using a conventional X-ray tube and a photon-counting detector. We wished to produce 3D spectroscopic images of mice that distinguished calcium, iodine and barium.

METHODS

We developed a desktop spectral CT, dubbed MARS, based around the Medipix2 photon-counting energy-discriminating detector. The single conventional X-ray tube operated at constant voltage (75 kVp) and constant current (150 microA). We anaesthetised with ketamine six black mice (C57BL/6). We introduced iodinated contrast material and barium sulphate into the vascular system, alimentary tract and respiratory tract as we euthanised them. The mice were preserved in resin and imaged at four detector energy levels from 12 keV to 42 keV to include the K-edges of iodine (33.0 keV) and barium (37.4 keV). Principal component analysis was applied to reconstructed images to identify components with independent energy response, then displayed in 2D and 3D.

RESULTS

Iodinated and barium contrast material was spectrally distinct from soft tissue and bone in all six mice. Calcium, iodine and barium were displayed as separate channels on 3D colour images at <55 microm isotropic voxels.

CONCLUSION

Spectral CT distinguishes contrast agents with K-edges only 4 keV apart. Multi-contrast imaging and molecular CT are potential future applications.

摘要

目的

光谱 CT 与双能 CT 的不同之处在于它使用传统的 X 射线管和光子计数探测器。我们希望生成能够区分钙、碘和钡的小鼠三维光谱图像。

方法

我们基于 Medipix2 光子计数能量分辨探测器开发了一种名为 MARS 的台式光谱 CT。单根常规 X 射线管以恒定电压（75 kVp）和恒定电流（150 microA）运行。我们用氯胺酮麻醉六只黑色小鼠（C57BL/6）。在处死它们的过程中，我们将碘化对比剂和硫酸钡引入血管系统、消化道和呼吸道。将小鼠保存在树脂中，并在从 12 keV 到 42 keV 的四个探测器能量水平下进行成像，以包括碘（33.0 keV）和钡（37.4 keV）的 K 边。对重建图像应用主成分分析以识别具有独立能量响应的分量，然后以 2D 和 3D 显示。

结果

在所有六只小鼠中，碘化和硫酸钡对比剂在光谱上与软组织和骨骼明显不同。钙、碘和钡在<55 微米各向同性体素的三维彩色图像中以单独的通道显示。

结论

光谱 CT 可区分仅相隔 4 keV 的 K 边对比剂。多对比成像和分子 CT 是潜在的未来应用。

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光谱（多能量） CT 可区分 MICE 中的碘和钡造影剂。

Spectroscopic (multi-energy) CT distinguishes iodine and barium contrast material in MICE.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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