360° CZT-SPECT/CT 相机:临床条件下基于 99mTc 和 177Lu 象素的评估。

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Christopher Hoog, Pierre-Malick Koulibaly, Nicolas Sas, Laetitia Imbert, Gilles Le Rouzic, Romain Popoff, Jean-Noël Badel, Ludovic Ferrer
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引用次数: 0

摘要

目的首次使用基于人体模型的测量方法,在临床条件下对三种现有的 360° CZT-SPECT/CT 相机进行比较:方法:在相同的临床条件下,使用StarGuide(通用电气医疗集团)、VERITON-CT 200 (V200)和400 (V400)(Spectrum Dynamics Medical公司)三种不同的相机对99m锝和177Lu定制的NEMA IEC人体模型进行成像。根据能谱评估了能量分辨率和容积灵敏度。供应商根据各自开发的软件提供了用于可视化和/或量化的最佳重建参数。对于 99mTc 像和 177Lu 像,使用 3DSlicer 对噪声水平、量化准确性和恢复系数(RC)进行了评估。使用 iQMetrix-CT 对 99mTc 视觉重建计算了一种称为 "基于任务 "方法的图像质量指标,通过空间频率评估背景噪声纹理(NPS)和热插入对比度恢复(TTF)。根据 TTF10% 和 TTF50% 对应的频率计算空间分辨率指数:结果:尽管 VERITON 相机的灵敏度更高,V400 的能量分辨率也更强(140 keV 时为 3.2%,113 keV 时为 5.2%,208 keV 时为 3.6%),但 StarGuide 的图像质量与之相当。这凸显了区分灵敏度和计数质量的必要性,灵敏度受硬件设计(准直器、探测器块)、图像质量条件以及重建过程(算法、散射校正、噪声控制)的影响。对于 99mTc 成像,定量图像优化方法基于 StarGuide 的 RCmean 与 V200 和 V400 系统的 RCmax(RCmean/RCmax 分别为 0.9/1.8;0.5/0.9;0.5/0.9-Ø37 毫米)。SRTB10/50 在不同的重建图像中显示出几乎相同的空间分辨率性能。在 177Lu 成像方面,V200 和 V400 系统的 113 keV 成像在图像质量和定量方面都表现出色,而 StarGuide 和 V400 系统由于能够利用 113 和 208 keV 峰的信号,因此具有更好的潜力。177Lu 定量根据所有相机和重建的 RCmax(1.07 ± 0.09-Ø37 mm)进行了优化:结论:三台照相机在 99mTc 成像方面的潜力相当,而 StarGuide 和 V400 在 177Lu 方面的潜力更高。与统一的视觉/定量重建相比,专用的视觉或定量重建具有更好的特定性能。在系统鉴定/比较和方案优化方面,基于任务的方法在深入比较图像方面似乎大有可为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
360° CZT-SPECT/CT cameras: 99mTc- and 177Lu-phantom-based evaluation under clinical conditions.

Purpose: For the first time, three currently available 360° CZT-SPECT/CT cameras were compared under clinical conditions using phantom-based measurements.

Methods: A 99mTc- and a 177Lu-customized NEMA IEC body phantom were imaged with three different cameras, StarGuide (GE Healthcare), VERITON-CT versions 200 (V200) and 400 (V400) (Spectrum Dynamics Medical) under the same clinical conditions. Energy resolution and volumetric sensitivity were evaluated from energy spectra. Vendors provided the best reconstruction parameters dedicated to visualization and/or quantification, based on their respective software developments. For both 99mTc- and 177Lu-phantoms, noise level, quantification accuracy, and recovery coefficient (RC) were performed with 3DSlicer. Image quality metrics from an approach called "task-based" were computed with iQMetrix-CT on 99mTc visual reconstructions to assess, through spatial frequencies, noise texture in the background (NPS) and contrast restitution of a hot insert (TTF). Spatial resolution indices were calculated from frequencies corresponding to TTF10% and TTF50%.

Results: Despite the higher sensitivity of VERITON cameras and the enhanced energy resolution of the V400 (3.2% at 140 keV, 5.2% at 113 keV, and 3.6% at 208 keV), StarGuide presents comparable image quality. This highlights the need to differentiate sensitivity from count quality, which is influenced by hardware design (collimator, detector block) and conditions image quality as well as the reconstruction process (algorithms, scatter correction, noise regulation). For 99mTc imaging, the quantitative image optimization approach based on RCmean for StarGuide versus RCmax for V200 and V400 systems (RCmean/RCmax: 0.9/1.8; 0.5/0.9; 0.5/0.9 respectively-Ø37 mm). SRTB10/50 showed nearly equivalent spatial resolution performances across the different reconstructed images. For 177Lu imaging, the 113 keV imaging of the V200 and V400 systems demonstrated strong performances in both image quality and quantification, while StarGuide and V400 systems offer even better potential due to their ability to exploit signals from both the 113 and 208 keV peaks. 177Lu quantification was optimized according to RCmax for all cameras and reconstructions (1.07 ± 0.09-Ø37 mm).

Conclusions: The three cameras have equivalent potential for 99mTc imaging, while StarGuide and V400 have demonstrated higher potential for 177Lu. Dedicated visual or quantitative reconstructions offer better specific performances compared to the unified visual/quantitative reconstruction. The task-based approach appears to be promising for in-depth comparison of images in the context of system characterization/comparison and protocol optimization.

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来源期刊
EJNMMI Physics
EJNMMI Physics Physics and Astronomy-Radiation
CiteScore
6.70
自引率
10.00%
发文量
78
审稿时长
13 weeks
期刊介绍: EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.
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