Direct3γ PET: A Pipeline for Direct Three-gamma PET Image Reconstruction

arXiv - PHYS - Medical Physics Pub Date : 2024-07-25 DOI:arxiv-2407.18337

Youness Mellak, Alexandre Bousse, Thibaut Merlin, Debora Giovagnoli, Dimitris Visvikis

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Abstract

Direct3{\gamma}PET is a novel, comprehensive pipelinefor direct estimation of emission points in three-gamma (3-{\gamma})positron emission tomography (PET) imaging using \b{eta}+ and {\gamma}emitters. This approach addresses limitations in existing directreconstruction methods for 3-{\gamma} PET, which often struggle withdetector imperfections and uncertainties in estimated intersectionpoints. The pipeline begins by processing raw data, managingprompt photon order in detectors, and propagating energy andspatial uncertainties on the line of response (LOR). It thenconstructs histo-images backprojecting non-symmetric Gaussianprobability density functions (PDFs) in the histo-image, withattenuation correction applied when such data is available. Athree-dimensional (3-D) convolutional neural network (CNN)performs image translation, mapping the histo-image to radioac-tivity image. This architecture is trained using both supervisedand adversarial approaches. Our evaluation demonstrates thesuperior performance of this method in balancing event inclu-sion and accuracy. For image reconstruction, we compare bothsupervised and adversarial neural network (NN) approaches.The adversarial approach shows better structural preservation,while the supervised approach provides slightly improved noisereduction.

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Direct3γ PET：直接三γ PET 图像重建管道

直接3{\gamma}PET是一种新颖、全面的管道，用于使用\b{eta}+和{\gamma}发射体直接估计三伽马（3-{\gamma}）正电子发射断层成像（PET）中的发射点。这种方法解决了现有 3-{gamma} PET 直接重建方法的局限性，因为这种方法通常会因探测器的不完善和估计交点的不确定性而受到影响。该流水线首先处理原始数据，管理探测器中的前向光子顺序，并在响应线（LOR）上传播能量和空间不确定性。然后，它在组织图像中反向推算非对称高斯概率密度函数（PDF），并在有此类数据时应用衰减校正。三维（3-D）卷积神经网络（CNN）执行图像转换，将组织图像映射到射电透射率图像。该架构采用监督和对抗两种方法进行训练。我们的评估结果表明，这种方法在兼顾事件包容性和准确性方面具有更优越的性能。在图像重建方面，我们比较了监督和对抗两种神经网络（NN）方法。

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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arXiv - PHYS - Medical Physics

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