SAFIR-I: first NEMA NU 4-2008-based performance characterization

IF 3 2区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING EJNMMI Physics Pub Date : 2023-12-12 DOI:10.1186/s40658-023-00603-1

Pascal Bebié, Werner Lustermann, Jan Debus, Christian Ritzer, Günther Dissertori, Bruno Weber

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Abstract

Small Animal Fast Insert for MRI detector I (SAFIR-I) is a novel Positron Emission Tomography insert for a $$7\,\hbox {T}$$ Bruker BioSpec 70/30 Ultra Shield Refrigerated Magnetic Resonance Imaging (MRI) system. It facilitates truly simultaneous quantitative imaging in mice and rats at injected activities as high as $$500\,\hbox {MBq}$$ . Exploitation of the resulting high count rates enables quick image formation at few seconds per frame. In this investigation, key performance parameters of SAFIR-I have been determined according to the evaluations outlined in the National Electrical Manufacturers Association (NEMA) Standards Publication NU 4-2008 (NEMA-NU4) protocol. Using an energy window of 391 to $$601\,\hbox {keV}$$ and a Coincidence Timing Window of $$500\,\hbox {ps}$$ , the following performance was observed: The average spatial resolution at $$5\,\hbox {mm}$$ radial offset (Full Width at Half Maximum) is $$2.54\,\hbox {mm}$$ when using Filtered Backprojection, 3D Reprojection reconstruction. For the mouse- and rat-like phantoms, the maximal Noise-Equivalent Count Rates (NECRs) are $$1368\,\hbox {kcps}$$ at the highest tested average effective concentration of $$14.7\,\hbox {MBq}\,\hbox {cc}^{-1}$$ , and $$713\,\hbox {kcps}$$ at the highest tested average effective concentration of $$1.72\,\hbox {MBq}\,\hbox {cc}^{-1}$$ , respectively. The NECR peak is not yet reached for either of these cases. The peak sensitivity is $$1.46\,\%$$ . The Image Quality phantom uniformity standard deviation is $$4.8\,\%$$ . The Recovery Coefficient for the $$5\,\hbox {mm}$$ rod is $$(1.08 \pm 0.10)$$ . The Spill-Over Ratios are $$(0.22 \pm 0.03)$$ and $$(0.22 \pm 0.02)$$ , for the water- and air-filled cylinder, respectively. An accuracy of $$4.3\,\%$$ was achieved for the quantitative calibration of reconstructed voxel values. The measured performance parameters indicate that the various design goals have been achieved. SAFIR-I offers excellent performance, especially at the high activities it was designed for. This facilitates planned experiments with fast tracer kinetics in small animals. Ways to potentially improve performance can still be explored. Simultaneously, further performance gains can be expected for a forthcoming insert featuring 2.7 times longer axial coverage named Small Animal Fast Insert for MRI detector II (SAFIR-II).

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SAFIR-I：首次基于 NEMA NU 4-2008 的性能鉴定

用于 MRI 检测器 I 的小动物快速插入物（SAFIR-I）是一种新型正电子发射断层成像插入物，适用于 $$7\\hbox {T}$Bruker BioSpec 70/30 Ultra Shield Refrigerated Magnetic Resonance Imaging (MRI) 系统。它有助于在注射活性高达 $$500\hbox {MBq}$ 的情况下对小鼠和大鼠进行真正的同步定量成像。利用由此产生的高计数率，可以在每帧几秒钟内快速形成图像。在这项研究中，SAFIR-I 的关键性能参数是根据美国国家电气制造商协会（NEMA）标准出版物 NU 4-2008（NEMA-NU4）协议中概述的评估确定的。使用 391 到 $$601\\hbox {keV}$ 的能量窗口和 $500\\hbox {ps}$ 的重合时间窗口，观察到以下性能：当使用过滤后投影、三维重投重建时，在$$5\\hbox {mm}$$径向偏移（半最大值全宽）下的平均空间分辨率为$$2.54\\hbox {mm}$$。对于小鼠和大鼠类模型，在最高测试平均有效浓度为 $$14.7,\hbox{MBq}\\hbox{cc}^{-1}$$和最高测试平均有效浓度为$1.72,\hbox{MBq}\\hbox{cc}^{-1}$$时分别为$713,\hbox{kcps}$$和$713,\hbox{kcps}$$。这两种情况都还没有达到 NECR 峰值。峰值灵敏度为 $$1.46\\%$$。图像质量幻影均匀性标准偏差为 $$4.8\\%$$。$$5\\hbox {mm}$ 杆的恢复系数为 $$(1.08 \pm 0.10)$$ 。充水圆柱体和充气圆柱体的溢出比分别为 $(0.22 \pm 0.03)$$ 和 $(0.22 \pm 0.02)$。重建体素值的定量校准精度达到了 $$4.3\\%$。测得的性能参数表明，各种设计目标均已实现。SAFIR-I 性能卓越，特别是在其设计的高活性条件下。这有助于在小动物体内进行快速示踪动力学实验。还可以探索提高性能的潜在方法。同时，即将推出的插入式核磁共振成像探测器 II（SAFIR-II）的轴向覆盖范围比 SAFIR-I 长 2.7 倍，性能有望进一步提高。

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来源期刊

EJNMMI Physics Physics and Astronomy-Radiation

CiteScore

6.70

自引率

10.00%

发文量

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.