深度生成去噪网络提高了门控心脏 PET 数据的质量和准确性。

IF 2.5 4区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Annals of Nuclear Medicine Pub Date : 2024-06-06 DOI:10.1007/s12149-024-01945-1
Mojtaba Jafaritadi, Jarmo Teuho, Eero Lehtonen, Riku Klén, Antti Saraste, Craig S. Levin
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引用次数: 0

摘要

背景:心脏正电子发射断层扫描(PET)可观察和量化心脏功能的分子和生理途径。然而,心脏和呼吸运动会造成模糊,从而降低 PET 图像质量和定量准确性。目的:本研究的目的是利用条件生成对抗网络(cGANs)创建一个零镜头图像去噪框架,以提高非门控和双门控心脏 PET 图像的质量和定量准确性:我们的研究包括 40 名接受 18F- 氟脱氧葡萄糖(18F-FDG)心脏 PET 研究的患者的回顾性列表模式数据。我们首先在模拟的非门控低计数 PET 数据(与相应的全计数目标数据配对)上训练和评估了三维 cGAN(称为 Pix2Pix),然后在同一 PET/CT 系统(包括非门控和双门控 PET 数据)上获取的未见测试集上部署了该模型:定量分析结果表明,3D Pix2Pix 网络架构取得了显著的效果(p 值):本研究的结果表明,双门控心脏 PET 图像往往存在重建后的伪影,可能会影响诊断效果,而使用生成式预训练去噪网络可以有效改善双门控心脏 PET 图像。
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Deep generative denoising networks enhance quality and accuracy of gated cardiac PET data

Background:

Cardiac positron emission tomography (PET) can visualize and quantify the molecular and physiological pathways of cardiac function. However, cardiac and respiratory motion can introduce blurring that reduces PET image quality and quantitative accuracy. Dual cardiac- and respiratory-gated PET reconstruction can mitigate motion artifacts but increases noise as only a subset of data are used for each time frame of the cardiac cycle.

Aim:

The objective of this study is to create a zero-shot image denoising framework using a conditional generative adversarial networks (cGANs) for improving image quality and quantitative accuracy in non-gated and dual-gated cardiac PET images.

Methods:

Our study included retrospective list-mode data from 40 patients who underwent an 18F-fluorodeoxyglucose (18F-FDG) cardiac PET study. We initially trained and evaluated a 3D cGAN—known as Pix2Pix—on simulated non-gated low-count PET data paired with corresponding full-count target data, and then deployed the model on an unseen test set acquired on the same PET/CT system including both non-gated and dual-gated PET data.

Results:

Quantitative analysis demonstrated that the 3D Pix2Pix network architecture achieved significantly (p value<0.05) enhanced image quality and accuracy in both non-gated and gated cardiac PET images. At 5%, 10%, and 15% preserved count statistics, the model increased peak signal-to-noise ratio (PSNR) by 33.7%, 21.2%, and 15.5%, structural similarity index (SSIM) by 7.1%, 3.3%, and 2.2%, and reduced mean absolute error (MAE) by 61.4%, 54.3%, and 49.7%, respectively. When tested on dual-gated PET data, the model consistently reduced noise, irrespective of cardiac/respiratory motion phases, while maintaining image resolution and accuracy. Significant improvements were observed across all gates, including a 34.7% increase in PSNR, a 7.8% improvement in SSIM, and a 60.3% reduction in MAE.

Conclusion:

The findings of this study indicate that dual-gated cardiac PET images, which often have post-reconstruction artifacts potentially affecting diagnostic performance, can be effectively improved using a generative pre-trained denoising network.

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来源期刊
Annals of Nuclear Medicine
Annals of Nuclear Medicine 医学-核医学
CiteScore
4.90
自引率
7.70%
发文量
111
审稿时长
4-8 weeks
期刊介绍: Annals of Nuclear Medicine is an official journal of the Japanese Society of Nuclear Medicine. It develops the appropriate application of radioactive substances and stable nuclides in the field of medicine. The journal promotes the exchange of ideas and information and research in nuclear medicine and includes the medical application of radionuclides and related subjects. It presents original articles, short communications, reviews and letters to the editor.
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