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技术说明:使用基于探测器的光谱 CT 扫描仪的碘 phantom 对光谱图像进行定量准确性评估。

Technical Note: Quantitative accuracy evaluation for spectral images from a detector-based spectral CT scanner using an iodine phantom.

机构信息

Department of Radiology, UT Southwestern Medical Center, Dallas, TX, 75390-9071, USA.

出版信息

Med Phys. 2018 May;45(5):2048-2053. doi: 10.1002/mp.12834. Epub 2018 Mar 24.

DOI:10.1002/mp.12834
PMID:29479712
Abstract

PURPOSE

The purpose of this study was to evaluate the quantitative accuracy of spectral images from a detector-based spectral CT scanner using a phantom with iodine-loaded inserts.

METHODS

A 40-cm long-body phantom with seven iodine inserts (2-20 mg/ml of iodine) was used in the study. The inserts could be placed at 5.5 or 10.5 cm from the phantom axis. The phantom was scanned five times for each insert configuration using 120 kVp tube voltage. A set of iodine, virtual noncontrast, effective atomic number, and virtual monoenergetic spectral CT images were generated and measurements were made for all the iodine rods. Measured values were compared with reference values calculated from the chemical composition information provided by the phantom manufacturer. Radiation dose from the spectral CT was compared to a conventional CT using a CTDI (32 cm) phantom.

RESULTS

Good agreement between measurements and reference values was achieved for all types of spectral images. The differences ranged from -0.46 to 0.1 mg/ml for iodine concentration, -9.95 to 6.41 HU for virtual noncontrast images, 0.12 to 0.35 for effective Z images, and -17.7 to 55.7 HU for virtual monoenergetic images. For a similar CTDIvol, image noise from the conventional CT was 10% lower than the spectral CT.

CONCLUSIONS

The detector-based spectral CT can achieve accurate spectral measurements on iodine concentration, virtual non-contrast images, effective atomic numbers, and virtual monoenergetic images.

摘要

目的

本研究旨在评估基于探测器的光谱 CT 扫描仪使用带有碘负载插件的体模的光谱图像的定量准确性。

方法

本研究使用一个长 40cm 的体模,其中有七个碘插件(碘浓度为 2-20mg/ml)。插件可以放置在距体模轴 5.5 或 10.5cm 处。对于每种插件配置,使用 120kVp 管电压对体模进行五次扫描。生成一组碘、虚拟非对比、有效原子序数和虚拟单能量光谱 CT 图像,并对所有碘棒进行测量。测量值与体模制造商提供的化学成分信息计算的参考值进行比较。使用 CTDI(32cm)体模比较光谱 CT 和常规 CT 的辐射剂量。

结果

所有类型的光谱图像的测量值与参考值之间均具有良好的一致性。碘浓度的差异范围为-0.46 至 0.1mg/ml,虚拟非对比图像的差异范围为-9.95 至 6.41HU,有效 Z 图像的差异范围为 0.12 至 0.35,虚拟单能量图像的差异范围为-17.7 至 55.7HU。对于相似的 CTDIvol,常规 CT 的图像噪声比光谱 CT 低 10%。

结论

基于探测器的光谱 CT 可以实现对碘浓度、虚拟非对比图像、有效原子序数和虚拟单能量图像的准确光谱测量。

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