专用脑 PET 扫描仪配运动校正系统的性能评估。

Performance evaluation of dedicated brain PET scanner with motion correction system.

机构信息

Central Research Laboratory, Hamamatsu Photonics K. K, Hamamatsu, 434-8601, Japan.

Global Strategic Challenge Center, Hamamatsu Photonics K.K, Hamamatsu, 434-8601, Japan.

出版信息

Ann Nucl Med. 2022 Aug;36(8):746-755. doi: 10.1007/s12149-022-01757-1. Epub 2022 Jun 13.

DOI:10.1007/s12149-022-01757-1

PMID:35698016

Abstract

OBJECTIVE

Various motion correction (MC) algorithms for positron emission tomography (PET) have been proposed to accelerate the diagnostic performance and research in brain activity and neurology. We have incorporated MC system-based optical motion tracking into the brain-dedicated time-of-flight PET scanner. In this study, we evaluate the performance characteristics of the developed PET scanner when performing MC in accordance with the standards and guidelines for the brain PET scanner.

METHODS

We evaluate the spatial resolution, scatter fraction, count rate characteristics, sensitivity, and image quality of PET images. The MC evaluation is measured in terms of the spatial resolution and image quality that affect movement.

RESULTS

In the basic performance evaluation, the average spatial resolution by iterative reconstruction was 2.2 mm at 10 mm offset position. The measured peak noise equivalent count rate was 38.0 kcps at 16.7 kBq/mL. The scatter fraction and system sensitivity were 43.9% and 22.4 cps/(Bq/mL), respectively. The image contrast recovery was between 43.2% (10 mm sphere) and 72.0% (37 mm sphere). In the MC performance evaluation, the average spatial resolution was 2.7 mm at 10 mm offset position, when the phantom stage with the point source translates to ± 15 mm along the y-axis. The image contrast recovery was between 34.2 % (10 mm sphere) and 66.8 % (37 mm sphere).

CONCLUSIONS

The reconstructed images using MC were restored to their nearly identical state as those at rest. Therefore, it is concluded that this scanner can observe more natural brain activity.

摘要

目的

为了加速脑活动和神经科学的诊断性能和研究，已经提出了各种正电子发射断层扫描（PET）的运动校正（MC）算法。我们已经将基于 MC 系统的光学运动跟踪技术整合到了专用的脑部时间飞行 PET 扫描仪中。在这项研究中，我们根据脑部 PET 扫描仪的标准和指南来评估所开发的 PET 扫描仪的性能特征，在执行 MC 时。

方法

我们评估了 PET 图像的空间分辨率、散射分数、计数率特性、灵敏度和图像质量。MC 的评估是根据影响运动的空间分辨率和图像质量来衡量的。

结果

在基本性能评估中，迭代重建的平均空间分辨率在 10mm 偏移位置为 2.2mm。测量的峰值噪声等效计数率为 16.7kBq/mL 时 38.0kcps。散射分数和系统灵敏度分别为 43.9%和 22.4cps/（Bq/mL）。图像对比度恢复在 43.2%（10mm 球）和 72.0%（37mm 球）之间。在 MC 性能评估中，当点源所在的幻影台沿 y 轴正负 15mm 平移时，平均空间分辨率为 10mm 偏移位置的 2.7mm。图像对比度恢复在 34.2%（10mm 球）和 66.8%（37mm 球）之间。

结论

使用 MC 重建的图像恢复到与静止时几乎相同的状态。因此，可以得出结论，该扫描仪可以观察到更自然的大脑活动。

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专用脑 PET 扫描仪配运动校正系统的性能评估。

Performance evaluation of dedicated brain PET scanner with motion correction system.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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