光共享深度编码PET模块的洪水直方图质量度量

Andy Labella, Xinjie Cao, Wei Zhao, A. Goldan
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引用次数: 0

摘要

单端读出深度编码PET模块的空间性能取决于基于光共享模式识别每个伽马射线被吸收的晶体的能力,该模块具有与读出像素n对1耦合的多晶闪烁体阵列。能量加权平均法是这类探测器模块中进行晶体识别最常用的方法。然而,表征洪水直方图质量的定量指标尚未开发用于这种实用、经济高效的检测器模块配置。在这项工作中,我们引入了一种洪水直方图质量度量,用于确定将多个晶体耦合到相同读出像素时晶体识别簇的分离程度。我们比较了4比1耦合模块与标准均匀玻璃光导和我们新开发的棱柱状光导阵列之间的泛洪直方图质量,棱柱状光导阵列用于Prism-PET探测器模块配置。两个模块都由16个×16阵列组成,这些阵列由1.4 × 1.4 × 20 mm3LYSO晶体耦合成4比1到3.2 × 3.2 mm2SiPM像素。Prism-PET模组的泛光直方图质量比均匀光导模组高40%。两个模块在5个不同深度处获得的晶体团簇证明了Prism-PET如何增加晶体轮廓的深度依赖性,从而增强晶体分离。我们的洪水直方图质量度量是一种定量度量,有助于表征具有n对1晶体-读出耦合的高分辨率单端读出模块。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flood Histogram Quality Metric for Light Sharing Depth-Encoding PET Modules
Spatial performance of single-ended readout depth-encoding PET modules with multicrystal scintillator arrays that are n-to-1 coupled to readout pixels relies on the ability to identify the crystal where each gamma ray is absorbed based on light sharing patterns. Energy weighted average method is the most popular method for performing crystal identification in such detector modules. However, quantitative metrics that characterize flood histogram quality haven't yet been developed for this practical, cost-effective detector module configuration. In this work, we introduce a flood histogram quality metric that determines how well-separated the crystal identification clusters are when coupling multiple crystals to the same readout pixel. We compare the flood histogram quality between 4-to-1 coupled modules with a standard uniform glass light guide and our newly developed prismatoid light guide array, which is used in Prism-PET detector module configurations. Both modules consisted of 16 ×16 arrays of 1.4 × 1.4 × 20 mm3LYSO crystals coupled 4-to-1 to 3.2 × 3.2 mm2SiPM pixels. The Prism-PET module exhibited 40% better flood histogram quality than the uniform light guide module. Crystal clusters acquired at 5 different depths in both modules demonstrated how Prism-PET increases the depth-dependence of crystal contours, thus enhancing crystal separation. Our flood histogram quality metric is a quantitative measure that helps characterize high resolution single-ended readout modules with n-to-1 crystal-to-readout coupling.
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