无边沿PET系统样机的标定方法。

Marta Freire, Andrea Gonzalez-Montoro, Gabriel Cañizares, Stuart S Berr, Luis F Vidal, Liczandro Hernandez, Antonio J Gonzalez
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引用次数: 1

摘要

小动物正电子发射断层扫描(PET)成像仪器的研究主要是为了提高时间、空间分辨率和灵敏度。传统的PET扫描仪是由多个探测器组成的,这些探测器放置在圆柱形几何结构中,它们之间在轴向和轴向平面上都有间隙。这些间隙降低了灵敏度,降低了系统视场边缘的空间分辨率。为了缓解这些问题,我们设计并验证了一种基于单个LYSO环的无边缘临床前PET系统,其内径为62 mm,每个外径为26 × 52 mm2。闪烁光是用安装在磁场兼容pcb上的硅光电倍增管(SiPMs)的行和列读出的。本工作的目的是为该系统提供一种校准方法。环空的特殊设计对模块接头处的光分布(LD)产生了一些不良影响,这需要解决。然而,在校准之后,系统允许人们正确地检索能量和3D光子撞击位置。
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Calibration Methodology of an Edgeless PET System Prototype.

Instrumentation research in small animal Positron Emission Tomography (PET) imaging is driven by improving timing, spatial resolution and sensitivity. Conventional PET scanners are built of multiple detectors placed in a cylindrical geometry with gaps between them in both the transaxial and axial planes. These gaps decrease sensitivity and degrade spatial resolution towards the edges of the system field of view (FOV). To mitigate these problems, we have designed and validated an edgeless pre-clinical PET system based on a single LYSO annulus with an inner diameter of 62 mm and 10 outer facets of 26 × 52 mm2 each. The scintillation light is read out using the row and columns of Silicon Photomultipliers (SiPMs) mounted in magnetic-field compatible PCBs. The objective of this work is to provide a calibration method for this system. The particular design of the annulus produces some undesirable effects in the light distributions (LD) at the module joints, which needs to be addressed. Nevertheless, after calibration, the system allows one to properly retrieve both, the energy and 3D photon impact positions.

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