双层双能 CT 系统测定电子密度、有效原子序数和碘浓度的准确性。

Accuracy of electron density, effective atomic number, and iodine concentration determination with a dual-layer dual-energy computed tomography system.

机构信息

Department of Radiation Oncology, St. Jude Children's Research Hospital, Memphis, TN, 38105, USA.

Global Advanced Technology, Philips Medical Systems, Haifa, 3190500, Israel.

出版信息

Med Phys. 2018 Jun;45(6):2486-2497. doi: 10.1002/mp.12903. Epub 2018 Apr 23.

DOI:10.1002/mp.12903

PMID:29624708

Abstract

PURPOSE

This study aimed to quantitate the accuracy of the determination of electron density (ED), effective atomic number (Z ), and iodine concentration, directed for more accurate radiation therapy planning, with a new dual-layer dual-energy computed tomography (DL-DECT) system. The dependence of the accuracy of these values on the scan and reconstruction parameters, as well as on the phantom size, was also examined.

METHODS

Measurements were performed on a commercial DECT system with a DL detector (IQon Spectral CT, Philips Healthcare), using phantoms with various tissue-equivalent inserts as well as iodine and calcium inserts of different concentrations. The expected values of ED and Z for the insert materials were derived from the chemical compositions provided by the vendors. The nominal scan condition for the accuracy measurements was 120 kVp, 20 mGy CTDIvol, 0.812 pitch, 16 × 0.625 mm collimation, and 0.33-second gantry rotation.

RESULTS

The median deviation of ED ranged from -0.1% to 1.1% for all Gammex tissue inserts. The median deviation of Z ranged from -2.3% to 1.7% for soft tissue and bone inserts and was ≤7% for lung inserts. The absolute deviations for ED and Z in lung inserts were within 1% of the ED of water and 1 a.u., respectively. For two different phantom sizes, the ED values agreed to within 0.7% and the Z values agreed to within 2%, except for the lung inserts. When the scan parameters were changed from 120 kVp/20 mGy to 140 kVp/30 mGy, the ED differed within [-0.51%, 0.65%] and the Z differed within [-1.1%, 0.23%] for all materials except lungs, in which Z increased by 2.4%. The accuracy of ED and Z measurement at 120 kVp was no worse than that at 140 kVp. For iodine quantitation, the median absolute deviations from the nominal values were up to 0.3 mg/mL for iodine concentrations of 2-20 mg/mL, with an overall median deviation of -0.1 mg/mL. Iodine and calcium were well separated on the ED-Z scatter plot, even at the lowest concentrations (2 mg/mL for iodine and 50 mg/mL for calcium).

CONCLUSIONS

The accuracy of ED measurement, Z determination, and iodine quantitation derived from DL-DECT was demonstrated with phantom measurements. The accuracies were not sensitive to scan and reconstruction parameters, namely tube potential, dose, rotation time, and spectral reconstruction level, especially in the case of electron density.

摘要

目的

本研究旨在通过一种新的双层双能计算机断层扫描（DL-DECT）系统，定量测定电子密度（ED）、有效原子序数（Z）和碘浓度的准确性，以进行更精确的放射治疗计划。还检查了这些值的准确性对扫描和重建参数以及体模大小的依赖性。

方法

使用具有各种组织等效插件以及不同浓度的碘和钙插件的体模，在商业 DECT 系统（飞利浦医疗保健 IQon Spectral CT）上进行了测量。插件材料的 ED 和 Z 的预期值是由供应商提供的化学成分得出的。准确性测量的标称扫描条件为 120kVp、20mGy CTDIvol、0.812 螺距、16×0.625mm 准直器和 0.33 秒机架旋转。

结果

对于所有 Gammex 组织插件，ED 的中位数偏差范围为-0.1%至 1.1%。软组织和骨插件的 Z 的中位数偏差范围为-2.3%至 1.7%，肺插件的偏差不超过 7%。肺插件中 ED 和 Z 的绝对偏差分别在水的 ED 的 1%以内和 1 个单位以内。对于两种不同的体模尺寸，ED 值的偏差在 0.7%以内，Z 值的偏差在 2%以内，除了肺插件。当扫描参数从 120kVp/20mGy 变为 140kVp/30mGy 时，除了肺组织之外，所有材料的 ED 差异在[-0.51%，0.65%]之间，Z 差异在[-1.1%，0.23%]之间，其中 Z 增加了 2.4%。在 120kVp 时 ED 和 Z 测量的准确性并不比 140kVp 差。对于碘定量，2-20mg/mL 碘浓度下，与名义值的中位数绝对偏差高达 0.3mg/mL，总体中位数偏差为-0.1mg/mL。碘和钙在 ED-Z 散点图上很好地分离，即使在最低浓度（碘 2mg/mL，钙 50mg/mL）下也是如此。