Rejection of RF Noise Effects on PET in a PET/EPR Combined Imaging System

Heejong Kim, B. Epel, S. Sundramoorthy, Hsiu-Ming Tsai, E. Barth, I. Gertsenshteyn, H. Halpern, Y. Hua, Q. Xie, Chin-Tu Chen, C. Kao
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Abstract

Previously we reported the development of a positron emission tomography (PET) and electron paramagnetic resonance (EPR) combined imaging system. The combined imaging system aimed to investigate the potential of PET hypoxia imaging by using EPR oxygen imaging as a reference. Simultaneous PET/EPR data acquisition is important to make sure of recording the same biological changes in both imaging modalities as well as to shorten imaging time. Our current system does not have magnetic or RF shielding. During the initial simultaneous PET/EPR operation, we observed that the EPR RF pulsing induced spurious noise events in the PET, and significantly affected the PET detector performance. We developed a method to reject the EPR RF noise events in off-line data processing. The method is to exploit the waveform sampling capable PET data acquisition implemented in a multi-voltage-threshold (MVT) board, and to use the pulse shape difference found in the MVT waveforms between scintillation and RF noise events. Experiments were conducted to evaluate the effectiveness of the proposed method in rejecting RF noise events. Preliminary results indicate that the rejection method works effectively to enable simultaneous data acquisition of the PET/EPR system.
PET/EPR联合成像系统中射频噪声对PET的抑制
以前我们报道了正电子发射断层扫描(PET)和电子顺磁共振(EPR)联合成像系统的发展。该联合成像系统旨在以EPR氧成像为参考,探讨PET缺氧成像的潜力。同时获取PET/EPR数据对于确保在两种成像方式下记录相同的生物变化以及缩短成像时间非常重要。我们目前的系统没有磁性或射频屏蔽。在初始的PET/EPR同时工作过程中,我们观察到EPR射频脉冲在PET中引起杂散噪声事件,并显著影响PET检测器的性能。我们开发了一种在离线数据处理中抑制EPR射频噪声事件的方法。该方法是利用在多电压阈值(MVT)板中实现的波形采样能力PET数据采集,并利用闪烁和射频噪声事件之间MVT波形中发现的脉冲形状差异。通过实验来评估该方法在抑制射频噪声事件方面的有效性。初步结果表明,该方法能够有效地实现PET/EPR系统的同步数据采集。
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