Performance characterization of a dual-threshold time-over-threshold APD-based detector front-end module for PET imaging

2015 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC) Pub Date : 2015-10-01 DOI:10.1109/NSSMIC.2015.7581828

Émilie Gaudin, L. Arpin, J. Bouchard, Maxime Paillé, H. Bouziri, M. Bergeron, C. Pepin, J. Cadorette, R. Fontaine, R. Lecomte

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引用次数: 5

Abstract

The LabPET II front-end module is an avalanche photodiode (APD) based pixelated detector designed to achieve submillimetric spatial resolution in pre-clinical Positron Emission Tomography (PET). This technology is also based on Time-over-Threshold (ToT) signal processing and designed to be used as a generic platform for ultra-high resolution PET imaging of small and medium-size animals. The basic building block uses a 4×8 array of 1.12×1.12×12 mm3 Lu1.9Y0.1SiO5:Ce (LYSO) scintillator pixels with one-to-one coupling to a 4×8 pixelated APD array mounted on a ceramic carrier. Four of these detectors are mounted on a PCB with two 64-channel ASICs interfacing to two detector modules each. Signals from each APD pixel can be individually processed by dedicated dual-threshold ToT channels providing timing and energy data. Energy calibration was performed using gamma ray sources in the range 300-1275 keV to correct the non-linearity of the ToT signal and obtain energy spectra. Energy and timing performance of the complete front-end module was evaluated. Results confirm the functionality of the dual threshold ToT circuit implemented in the 64-channel ASIC, as well as the physical performance of the most recent LabPET II version of APD-based detectors for applications in high-resolution PET imaging.

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基于apd的PET成像双阈值超阈值检测器前端模块的性能表征

LabPET II前端模块是基于雪崩光电二极管(APD)的像素化检测器，旨在实现临床前正电子发射断层扫描(PET)的亚毫米空间分辨率。该技术也是基于时间超过阈值(ToT)信号处理，设计用于中小型动物的超高分辨率PET成像的通用平台。基本构建块使用1.12×1.12×12 mm3 Lu1.9Y0.1SiO5:Ce (LYSO)闪烁体像素的4×8阵列，与安装在陶瓷载体上的4×8像素化APD阵列一对一耦合。其中四个检测器安装在PCB上，两个64通道asic接口分别连接两个检测器模块。来自每个APD像素的信号可以由专用的双阈值ToT通道单独处理，提供时序和能量数据。利用300-1275 keV范围内的伽马射线源进行能量校准，校正ToT信号的非线性并获得能谱。对整个前端模块的能量和时序性能进行了评估。结果证实了在64通道ASIC中实现的双阈值ToT电路的功能，以及用于高分辨率PET成像应用的基于apd的最新LabPET II版本检测器的物理性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

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