新一代人脑 PET/CT 成像仪 NeuroEXPLORER 的性能特点。

Hongdi Li, Ramsey D Badawi, Simon R Cherry, Kathryn Fontaine, Liuchun He, Shannan Henry, Ansel T Hillmer, Lingzhi Hu, Nikkita Khattar, Edwin K Leung, Tiantian Li, Yusheng Li, Chi Liu, Peng Liu, Zhenrui Lu, Stanislaw Majewski, David Matuskey, Evan D Morris, Tim Mulnix, Negar Omidvari, Suranjana Samanta, Aaron Selfridge, Xishan Sun, Takuya Toyonaga, Tommaso Volpi, Tianyi Zeng, Terry Jones, Jinyi Qi, Richard E Carson
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引用次数: 0

摘要

耶鲁大学、加州大学戴维斯分校和 United Imaging Healthcare 合作成功开发了 NeuroEXPLORER,这是一种专用的人脑正电子发射计算机断层成像仪,具有高空间分辨率、高灵敏度和用于无标记连续运动跟踪的内置三维相机。它具有高交互深度和飞行时间分辨率,以及 52.4 厘米的横向视场(FOV)和扩展的轴向视场(49.5 厘米),从而提高了灵敏度。在此,我们将介绍 NeuroEXPLORER 的物理特性、性能评估和首批人体图像。方法:按照美国国家电气制造商协会 (NEMA) NU 2-2018 标准对空间分辨率、灵敏度、计数率性能、能量和时间分辨率以及图像质量进行了测量。霍夫曼三维脑模型和迷你德伦佐模型的成像研究证明了该系统的性能。本文展示了一名健康志愿者的 18F-FDG 初步图像。结果:通过滤波后投影重建,径向和切向空间分辨率(半最大全宽)平均为 1.64、2.06 和 2.51 毫米,轴向分辨率分别为 2.73、2.89 和 2.93 毫米,径向偏移分别为 1、10 和 20 厘米。平均飞行时间分辨率为 236 ps,能量分辨率为 10.5%。中心偏移和 10 厘米偏移的 NEMA 灵敏度分别为 46.0 和 47.6 kcps/MBq。FOV 中心的灵敏度为 11.8%。58.0 kBq/mL 时的峰值噪声等效计数率为 1.31 Mcps,5.3 kBq/mL 时的散射率为 36.5%。峰值噪声等效计数率的最大计数率误差小于 5%。在 3 次迭代中,NEMA 图像质量对比度恢复系数从 74.5%(10 毫米球体)到 92.6%(37 毫米球体)不等,在对比度为 4.0:1 时,背景变异性从 3.1%到 1.4%不等。一例人脑 18F-FDG 图像显示出极高的分辨率,捕捉到了皮层和皮层下结构的复杂细节。结论NeuroEXPLORER 具有高灵敏度和高空间分辨率。凭借其长轴向长度,它还能进行高质量的脊髓成像,并从颈动脉获取图像输入功能。这些性能的提升将大大拓宽人脑 PET 范例、方案的范围,从而扩大临床研究应用。
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Performance Characteristics of the NeuroEXPLORER, a Next-Generation Human Brain PET/CT Imager.

The collaboration of Yale, the University of California, Davis, and United Imaging Healthcare has successfully developed the NeuroEXPLORER, a dedicated human brain PET imager with high spatial resolution, high sensitivity, and a built-in 3-dimensional camera for markerless continuous motion tracking. It has high depth-of-interaction and time-of-flight resolutions, along with a 52.4-cm transverse field of view (FOV) and an extended axial FOV (49.5 cm) to enhance sensitivity. Here, we present the physical characterization, performance evaluation, and first human images of the NeuroEXPLORER. Methods: Measurements of spatial resolution, sensitivity, count rate performance, energy and timing resolution, and image quality were performed adhering to the National Electrical Manufacturers Association (NEMA) NU 2-2018 standard. The system's performance was demonstrated through imaging studies of the Hoffman 3-dimensional brain phantom and the mini-Derenzo phantom. Initial 18F-FDG images from a healthy volunteer are presented. Results: With filtered backprojection reconstruction, the radial and tangential spatial resolutions (full width at half maximum) averaged 1.64, 2.06, and 2.51 mm, with axial resolutions of 2.73, 2.89, and 2.93 mm for radial offsets of 1, 10, and 20 cm, respectively. The average time-of-flight resolution was 236 ps, and the energy resolution was 10.5%. NEMA sensitivities were 46.0 and 47.6 kcps/MBq at the center and 10-cm offset, respectively. A sensitivity of 11.8% was achieved at the FOV center. The peak noise-equivalent count rate was 1.31 Mcps at 58.0 kBq/mL, and the scatter fraction at 5.3 kBq/mL was 36.5%. The maximum count rate error at the peak noise-equivalent count rate was less than 5%. At 3 iterations, the NEMA image-quality contrast recovery coefficients varied from 74.5% (10-mm sphere) to 92.6% (37-mm sphere), and background variability ranged from 3.1% to 1.4% at a contrast of 4.0:1. An example human brain 18F-FDG image exhibited very high resolution, capturing intricate details in the cortex and subcortical structures. Conclusion: The NeuroEXPLORER offers high sensitivity and high spatial resolution. With its long axial length, it also enables high-quality spinal cord imaging and image-derived input functions from the carotid arteries. These performance enhancements will substantially broaden the range of human brain PET paradigms, protocols, and thereby clinical research applications.

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