P. Busca, C. Fiorini, M. Occhipinti, P. Trigilio, K. Nagy, T. Bukki, M. Czeller, Z. Nyitrai, C. Piemonte, A. Ferri, A. Gola, J. Rieger
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引用次数: 4
摘要
在目前的工作中,我们提出了一种基于硅光电倍增管(SiPM)的混合SPECT/MRI仪器检测模块的开发。该模块是为小鼠和大鼠脑成像的临床前SPECT系统设计的,但也可以用于临床SPECT脑扫描仪。伽马射线探测模块是在完善的Anger架构上设计的,具有连续的5 cm χ 5 cm CsI:Tl闪烁体,由Fondazione Bruno Kessler的SiPMs阵列(RGB-HD, 25 μm SPAD细胞)读取。电流信号被传输到采用0.35 μm CMOS技术实现的36通道ASIC上,并通过外部数据采集系统进行数字化处理。为了降低SiPM阵列的暗计数率,提高探测器在能量和空间分辨率方面的最终性能,必须在0°C的工作温度下工作。为此,mri兼容的散热器是用塑料材料(Coolpolymer D5506)和乙二醇-水混合物作为冷却液来实现的。用Co-57 (122 keV)进行的伽马射线测量提供了优于14%的能量分辨率和低于1.0 mm的平均固有空间分辨率。
A SiPM-based detection module for SPECT/MRI systems
In the present work we present the development of a Silicon PhotoMultiplier (SiPM)-based detection module for hybrid SPECT/MRI instruments. The module is designed for preclinical SPECT systems for mouse and rat brain imaging, but can also be exploited for clinical SPECT brain scanners. The gamma-ray detection module is designed on the well-established Anger architecture, with a continuous 5 cm χ 5 cm CsI:Tl scintillator read by an array of SiPMs (RGB-HD with 25 μm SPAD cells) from Fondazione Bruno Kessler. The current signals are conveyed to a 36-channel ASIC realized in 0.35 μm CMOS technology and digitized by an external data acquisition system. An operative temperature of 0° C is mandatory to reduce the dark count rate of the SiPM array and to enhance the final performance of the detector in terms of energy and spatial resolution. For this purpose, an MRI-compatible heat sink is realized with a plastic material (Coolpolymer D5506) with a glycol-water mixture as cooling fluid. Gamma-ray measurements with Co-57 (122 keV) have provided an energy resolution better than 14% and an average intrinsic spatial resolution below 1.0 mm.
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