Performance evaluation of the 3D-ring cadmium-zinc-telluride (CZT) StarGuide system according to the NEMA NU 1-2018 standard.

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Alessandra Zorz, Marco Andrea Rossato, Paolo Turco, Luca Maria Colombo Gomez, Andrea Bettinelli, Francesca De Monte, Marta Paiusco, Pietro Zucchetta, Diego Cecchin
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引用次数: 0

Abstract

Background: The application of semi-conductor detectors such as cadmium-zinc-telluride (CZT) in nuclear medicine improves extrinsic energy resolution and count sensitivity due to the direct conversion of gamma photons into electric signals. A 3D-ring pixelated CZT system named StarGuide was recently developed and implemented by GE HealthCare for SPECT acquisition. The system consists of 12 detector columns with seven modules of 16 × 16 CZT pixelated crystals, each with an integrated parallel-hole tungsten collimator. The axial coverage is 27.5 cm. The detector thickness is 7.25 mm, which allows acquisitions in the energy range [40-279] keV. Since there is currently no performance characterization specific to 3D-ring CZT SPECT systems, the National Electrical Manufacturers Association (NEMA) NU 1-2018 clinical standard can be tailored to these cameras. The aim of this study was to evaluate the performance of the SPECT/CT StarGuide system according to the NEMA NU 1-2018 clinical standard specifically adapted to characterize the new 3D-ring CZT.

Results: Due to the integrated collimator, the system geometry and the pixelated nature of the detector, some NEMA tests have been adapted to the features of the system. The extrinsic measured energy resolution was about 5-6% for the tested isotopes (99mTc, 123I and 57Co); the maximum count rate was 760 kcps and the observed count rate at 20% loss was 917 kcps. The system spatial resolution in air extrapolated at 10 cm with 99mTc was 7.2 mm, while the SPECT spatial resolutions with scatter were 4.2, 3.7 and 3.6 mm in a central, radial and tangential direction respectively. Single head sensitivity value for 99mTc was 97 cps/MBq; with 12 detector columns, the system volumetric sensitivity reached 520 kcps MBq-1 cc-1.

Conclusions: The performance tests of the StarGuide can be performed according to the NEMA NU 1-2018 standard with some adaptations. The system has shown promising results, particularly in terms of energy resolution, spatial resolution and volumetric sensitivity, potentially leading to higher quality clinical images.

根据 NEMA NU 1-2018 标准对三维环形碲锌镉(CZT)StarGuide 系统进行性能评估。
背景:在核医学中应用碲化镉锌(CZT)等半导体探测器,可将伽马光子直接转化为电信号,从而提高外在能量分辨率和计数灵敏度。最近,通用电气医疗保健公司(GE HealthCare)为 SPECT 采集开发并实施了一种名为 StarGuide 的三维环形像素化 CZT 系统。该系统由 12 个探测器列和 7 个 16 × 16 CZT 像素晶体模块组成,每个模块都集成了平行孔钨准直器。轴向覆盖范围为 27.5 厘米。探测器厚度为 7.25 毫米,可在 [40-279] 千伏的能量范围内进行采集。由于目前还没有专门针对三维环形 CZT SPECT 系统的性能鉴定,美国国家电气制造商协会 (NEMA) NU 1-2018 临床标准可为这些相机量身定制。本研究的目的是根据 NEMA NU 1-2018 临床标准评估 SPECT/CT StarGuide 系统的性能,该标准专门针对新型三维环形 CZT 进行了调整:由于集成准直器、系统几何形状和探测器的像素化特性,一些 NEMA 测试已根据该系统的特点进行了调整。所测同位素(99mTc、123I 和 57Co)的外在测量能量分辨率约为 5-6%;最大计数率为 760 kcps,在损耗 20% 时的观测计数率为 917 kcps。以 10 厘米推断,99mTc 在空气中的系统空间分辨率为 7.2 毫米,而带有散射的 SPECT 空间分辨率在中心、径向和切线方向分别为 4.2、3.7 和 3.6 毫米。99mTc 的单头灵敏度值为 97 cps/MBq;使用 12 个探测器柱时,系统的容积灵敏度达到 520 kcps MBq-1 cc-1:StarGuide 的性能测试可以根据 NEMA NU 1-2018 标准进行,但需要进行一些调整。该系统显示出良好的效果,尤其是在能量分辨率、空间分辨率和容积灵敏度方面,有可能带来更高质量的临床图像。
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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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