基于虚拟单能量图像的三代快速千伏切换双能 CT 系统的幻影任务型图像质量评估。

Phantom task-based image quality assessment of three generations of rapid kV-switching dual-energy CT systems on virtual monoenergetic images.

机构信息

Department of Medical Imaging, CHU Nîmes, University of Montpellier, Nîmes Medical Imaging Group, Montpellier, France.

Institute of Radiation Physics, Lausanne University Hospital, Lausanne, Switzerland.

出版信息

Med Phys. 2022 Apr;49(4):2233-2244. doi: 10.1002/mp.15558. Epub 2022 Mar 7.

DOI:10.1002/mp.15558

PMID:35184293

Abstract

PURPOSE

To compare the spectral performance of three rapid kV switching dual-energy CT (DECT) systems on virtual monoenergetic images (VMIs) at low-energy levels on abdominal imaging.

METHODS

A multi-energy phantom was scanned on three DECT systems equipped with three different gemstone spectral imaging (GSI) platforms: GSI (1st generation, GSI-1st), GSI-Pro (2nd generation, GSI-2nd ), and GSI-Xtream (3rd generation, GSI-3rd). Acquisitions on the phantom were performed with a CTDI close to 11mGy. For all platforms, raw data were reconstructed using filtered-back projection (FBP) and a hybrid iterative reconstruction algorithm (ASIR-V at 50%; AV50). A deep-learning image reconstruction (DLR) algorithm (TrueFidelity) was used only for the GSI-3rd. Noise power spectrum (NPS) and task-based transfer function (TTF) were evaluated from 40 to 80 keV of VMIs. A detectability index (d') was computed to assess the detection of two contrast-enhanced lesions according to the keV level used.

RESULTS

For all GSI platforms, the noise magnitude decreased from 40 to 70 keV, and using AV50 compared to FBP. The average NPS spatial frequency (f ) and spatial resolution (TTF ) were similar from 40 to 70 keV and decreased with AV50 compared to FBP. Compared to AV50, using DLR reduced the noise magnitude (-27% ± 3%) and improved f values (10% ± 0%) and altering spatial resolution (2% ± 5%). For the two lesions, d' values peaked at 70 keV for GSI-1st and GSI-2nd platforms and at 40/50 keV for GSI-3rd, for all reconstruction algorithms. The highest d' values were found for the GSI-3rd with DLR.

CONCLUSION

Differences in image quality were found between the GSI platforms for VMIs at low keV. The new DLR algorithm on the GSI-3rd platform reduced noise and improved spatial resolution and detectability without changing the noise texture for VMIs at low keV. The choice of the best energy level in VMIs depends on the platform and the reconstruction algorithm.

摘要

目的

比较三种快速千伏切换双能 CT（DECT）系统在腹部成像低能级虚拟单能量图像（VMIs）上的光谱性能。

方法

使用配备三种不同宝石光谱成像（GSI）平台的三种 DECT 系统对多能量体模进行扫描：GSI（第一代，GSI-1st）、GSI-Pro（第二代，GSI-2nd）和 GSI-Xtream（第三代，GSI-3rd）。体模采集的 CTDI 接近 11mGy。对于所有平台，使用滤波反投影（FBP）和混合迭代重建算法（ASIR-V 为 50%；AV50）对原始数据进行重建。仅在 GSI-3rd 上使用深度学习图像重建（DLR）算法（TrueFidelity）。从 40keV 到 80keV 评估噪声功率谱（NPS）和基于任务的传递函数（TTF）。根据使用的 keV 水平计算检测两个对比度增强病变的检测指数（d'）。

结果

对于所有 GSI 平台，噪声幅度从 40keV 到 70keV 降低，与 FBP 相比，使用 AV50。从 40keV 到 70keV，平均 NPS 空间频率（f）和空间分辨率（TTF）相似，与 FBP 相比，使用 AV50 降低。与 AV50 相比，使用 DLR 降低了噪声幅度（-27%±3%）和提高了 f 值（10%±0%）并改变了空间分辨率（2%±5%）。对于两个病变，使用所有重建算法，GSI-1st 和 GSI-2nd 平台的 d'值在 70keV 处达到峰值，GSI-3rd 平台在 40keV/50keV 处达到峰值。使用 DLR 的 GSI-3rd 平台获得了最高的 d'值。

结论

在低 keV 时，GSI 平台之间的 VMIs 图像质量存在差异。新型 DLR 算法降低了噪声并提高了空间分辨率和检测能力，而不会改变低 keV 时 VMIs 的噪声纹理。VMIs 中最佳能级的选择取决于平台和重建算法。

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基于虚拟单能量图像的三代快速千伏切换双能 CT 系统的幻影任务型图像质量评估。

Phantom task-based image quality assessment of three generations of rapid kV-switching dual-energy CT systems on virtual monoenergetic images.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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