Unbiased and reproducible liver MRI-PDFF estimation using a scan protocol-informed deep learning method.

IF 4.7 2区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING European Radiology Pub Date : 2024-11-05 DOI:10.1007/s00330-024-11164-x
Juan P Meneses, Ayyaz Qadir, Nirusha Surendran, Cristobal Arrieta, Cristian Tejos, Marcelo E Andia, Zhaolin Chen, Sergio Uribe
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引用次数: 0

Abstract

Objective: To estimate proton density fat fraction (PDFF) from chemical shift encoded (CSE) MR images using a deep learning (DL)-based method that is precise and robust to different MR scanners and acquisition echo times (TEs).

Methods: Variable echo times neural network (VET-Net) is a two-stage framework that first estimates nonlinear variables of the CSE-MR signal model, to posteriorly estimate water/fat signal components using the least-squares method. VET-Net incorporates a vector with TEs as an auxiliary input, therefore enabling PDFF calculation with any TE setting. A single-site liver CSE-MRI dataset (188 subjects, 4146 axial slices) was considered, which was split into training (150 subjects), validation (18), and testing (20) subsets. Testing subjects were scanned using several protocols with different TEs, which we then used to measure the PDFF reproducibility coefficient (RDC) at two regions of interest (ROIs): the right posterior and left hepatic lobes. An open-source multi-site and multi-vendor fat-water phantom dataset was also used for PDFF bias assessment.

Results: VET-Net showed RDCs of 1.71% and 1.04% on the right posterior and left hepatic lobes, respectively, across different TEs, which was comparable to a reference graph cuts-based method (RDCs = 1.71% and 0.86%). VET-Net also showed a smaller PDFF bias (-0.55%) than graph cuts (0.93%) when tested on a multi-site phantom dataset. Reproducibility (1.94% and 1.59%) and bias (-2.04%) were negatively affected when the auxiliary TE input was not considered.

Conclusion: VET-Net provided unbiased and precise PDFF estimations using CSE-MR images from different hardware vendors and different TEs, outperforming conventional DL approaches.

Key points: Question Reproducibility of liver PDFF DL-based approaches on different scan protocols or manufacturers is not validated. Findings VET-Net showed a PDFF bias of -0.55% on a multi-site phantom dataset, and RDCs of 1.71% and 1.04% at two liver ROIs. Clinical relevance VET-Net provides efficient, in terms of scan and processing times, and unbiased PDFF estimations across different MR scanners and scan protocols, and therefore it can be leveraged to expand the use of MRI-based liver fat quantification to assess hepatic steatosis.

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利用扫描协议启发的深度学习方法,实现无偏且可重复的肝脏 MRI-PDFF 估计。
目的使用一种基于深度学习(DL)的方法,从化学位移编码(CSE)MR图像中估算质子密度脂肪分数(PDFF),该方法既精确又对不同的MR扫描仪和采集回波时间(TE)具有鲁棒性:可变回波时间神经网络(VET-Net)是一个两阶段框架,首先估计CSE-MR信号模型的非线性变量,然后使用最小二乘法估计水/脂肪信号成分。VET-Net 将包含 TE 的向量作为辅助输入,因此可以在任何 TE 设置下计算 PDFF。我们考虑了单部位肝脏 CSE-MRI 数据集(188 个受试者,4146 张轴向切片),并将其分为训练(150 个受试者)、验证(18 个)和测试(20 个)子集。测试受试者使用不同的 TE 扫描了多个方案,然后我们利用这些方案测量了两个感兴趣区 (ROI) 的 PDFF 重现性系数 (RDC):右后叶和左肝叶。我们还使用了一个开源的多站点和多供应商脂肪水模型数据集来评估 PDFF 的偏差:VET-Net 显示,在不同的 TEs 下,右肝后叶和左肝叶的 RDC 分别为 1.71% 和 1.04%,与基于图形切割的参考方法(RDC = 1.71% 和 0.86%)相当。在多站点模型数据集上进行测试时,VET-Net 的 PDFF 偏差(-0.55%)也小于图形切割法(0.93%)。当不考虑辅助 TE 输入时,再现性(1.94% 和 1.59%)和偏差(-2.04%)受到负面影响:VET-Net利用不同硬件供应商和不同TE的CSE-MR图像提供了无偏且精确的PDFF估计,优于传统的DL方法:问题 基于肝脏 PDFF DL 方法在不同扫描协议或制造商上的再现性尚未得到验证。研究结果 VET-Net在多部位模型数据集上显示的PDFF偏差为-0.55%,两个肝脏ROI的RDC分别为1.71%和1.04%。临床意义 VET-Net在扫描和处理时间方面提供了高效率,并且在不同的磁共振扫描仪和扫描方案中提供了无偏见的PDFF估算,因此可以利用它来扩大基于磁共振成像的肝脏脂肪量化在评估肝脂肪变性方面的应用。
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来源期刊
European Radiology
European Radiology 医学-核医学
CiteScore
11.60
自引率
8.50%
发文量
874
审稿时长
2-4 weeks
期刊介绍: European Radiology (ER) continuously updates scientific knowledge in radiology by publication of strong original articles and state-of-the-art reviews written by leading radiologists. A well balanced combination of review articles, original papers, short communications from European radiological congresses and information on society matters makes ER an indispensable source for current information in this field. This is the Journal of the European Society of Radiology, and the official journal of a number of societies. From 2004-2008 supplements to European Radiology were published under its companion, European Radiology Supplements, ISSN 1613-3749.
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