散射辐射对第一代和第二代双层光谱 CT 光谱定量性能的影响。

Impact of scatter radiation on spectral quantification performance of first- and second-generation dual-layer spectral computed tomography.

机构信息

Department of Radiology, University of Pennsylvania, Philadelphia, Pennsylvania, USA.

Department of Engineering and Architecture, Universidad Privada Boliviana, La Paz, Bolivia.

出版信息

J Appl Clin Med Phys. 2024 Jul;25(7):e14383. doi: 10.1002/acm2.14383. Epub 2024 May 27.

DOI:10.1002/acm2.14383

PMID:38801204

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11244683/

Abstract

OBJECTIVE

To assess the impact of scatter radiation on quantitative performance of first and second-generation dual-layer spectral computed tomography (DLCT) systems.

METHOD

A phantom with two iodine inserts (1 and 2 mg/mL) configured to intentionally introduce high scattering conditions was scanned with a first- and second-generation DLCT. Collimation widths (maximum of 4 cm for first generation and 8 cm for second generation) and radiation dose levels were varied. To evaluate the performance of both systems, the mean CT numbers of virtual monoenergetic images (MonoEs) at different energies were calculated and compared to expected values. MonoEs at 50 versus 150 keV were plotted to assess material characterization of both DLCTs. Additionally, iodine concentrations were determined, plotted, and compared against expected values. For each experimental scenario, absolute errors were reported.

RESULTS

An experimental setup, including a phantom design, was successfully implemented to simulate high scatter radiation imaging conditions. Both CT scanners illustrated high spectral accuracy for small collimation widths (1 and 2 cm). With increased collimation (4 cm), the second-generation DLCT outperformed the earlier DLCT system. Further, the spectral performance of the second-generation DLCT at an 8 cm collimation width was comparable to a 4 cm collimation on the first-generation DLCT. A comparison of the absolute errors between both systems at lower energy MonoEs illustrates that, for the same acquisition parameters, the second-generation DLCT generated results with decreased errors. Similarly, the maximum error in iodine quantification was less with second-generation DLCT (0.45 and 0.33 mg/mL for the first and second-generation DLCT, respectively).

CONCLUSION

The implementation of a two-dimensional anti-scatter grid in the second-generation DLCT improves the spectral quantification performance. In the clinical routine, this improvement may enable additional clinical benefits, for example, in lung imaging.

摘要

目的

评估散射辐射对第一代和第二代双层光谱 CT（DLCT）系统定量性能的影响。

方法

使用第一代和第二代 DLCT 对配置有两个碘插入物（1 和 2 mg/mL）以有意引入高散射条件的体模进行扫描。改变准直宽度（第一代最大为 4 cm，第二代最大为 8 cm）和辐射剂量水平。为了评估这两种系统的性能，计算了不同能量下虚拟单能图像（MonoE）的平均 CT 值，并与预期值进行比较。绘制了 50 与 150 keV 的 MonoE，以评估两种 DLCT 的材料特性。此外，还测定了碘浓度，并与预期值进行了比较。对于每种实验情况，都报告了绝对误差。

结果

成功实施了一个包括体模设计的实验设置，以模拟高散射辐射成像条件。两台 CT 扫描仪在小准直宽度（1 和 2 cm）下均显示出很高的光谱精度。随着准直宽度的增加（4 cm），第二代 DLCT 的性能优于早期的 DLCT 系统。此外，在 8 cm 准直宽度下，第二代 DLCT 的光谱性能与第一代 DLCT 的 4 cm 准直宽度相当。在较低能量的 MonoE 中，两种系统之间的绝对误差比较表明，在相同的采集参数下，第二代 DLCT 生成的结果误差更小。同样，第二代 DLCT 的碘定量最大误差更小（第一代和第二代 DLCT 分别为 0.45 和 0.33 mg/mL）。

结论

第二代 DLCT 中二维反散射格栅的实施提高了光谱定量性能。在临床常规中，这种改进可能会带来额外的临床益处，例如在肺部成像中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c3f/11244683/f5340278d915/ACM2-25-e14383-g005.jpg

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散射辐射对第一代和第二代双层光谱 CT 光谱定量性能的影响。

Impact of scatter radiation on spectral quantification performance of first- and second-generation dual-layer spectral computed tomography.

机构信息

出版信息

OBJECTIVE

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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