WALINET：一种用于磁共振波谱成像中去除干扰信号的水脂识别卷积神经网络。

WALINET: A water and lipid identification convolutional neural network for nuisance signal removal in MR spectroscopic imaging.

作者信息

Weiser Paul J, Langs Georg, Motyka Stanislav, Bogner Wolfgang, Courvoisier Sébastien, Hoffmann Malte, Klauser Antoine, Andronesi Ovidiu C

机构信息

Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Boston, Massachusetts, USA.

Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Magn Reson Med. 2025 Apr;93(4):1430-1442. doi: 10.1002/mrm.30402. Epub 2024 Dec 31.

DOI:10.1002/mrm.30402

PMID:39737778

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11782715/

Abstract

PURPOSE

Proton magnetic resonance spectroscopic imaging ( -MRSI) provides noninvasive spectral-spatial mapping of metabolism. However, long-standing problems in whole-brain -MRSI are spectral overlap of metabolite peaks with large lipid signal from scalp, and overwhelming water signal that distorts spectra. Fast and effective methods are needed for high-resolution -MRSI to accurately remove lipid and water signals while preserving the metabolite signal. The potential of supervised neural networks for this task remains unexplored, despite their success for other MRSI processing.

METHODS

We introduce a deep learning method based on a modified Y-NET network for water and lipid removal in whole-brain -MRSI. The WALINET (WAter and LIpid neural NETwork) was compared with conventional methods such as the state-of-the-art lipid L2 regularization and Hankel-Lanczos singular value decomposition (HLSVD) water suppression. Methods were evaluated on simulated models and in vivo whole-brain MRSI using NMRSE, SNR, CRLB, and FWHM metrics.

RESULTS

WALINET is significantly faster and needs 8s for high-resolution whole-brain MRSI, compared with 42min for conventional HLSVD+L2. WALINET suppresses lipid and water in the brain by 25-45 and 34-53-fold, respectively. WALINET has better performance than HLSVD+L2, providing: (1) more lipid removal with 41% lower NRMSE; (2) better metabolite signal preservation with 71% lower NRMSE in simulated data; 155% higher SNR and 50% lower CRLB in in vivo data. Metabolic maps obtained by WALINET in healthy subjects and patients show better gray-/white-matter contrast with more visible structural details.

CONCLUSIONS

WALINET has superior performance for nuisance signal removal and metabolite quantification on whole-brain -MRSI compared with conventional state-of-the-art techniques. This represents a new application of deep learning for MRSI processing, with potential for automated high-throughput workflow.

摘要

目的

质子磁共振波谱成像（(-MRSI)）可提供代谢的无创性光谱空间映射。然而，全脑(-MRSI)长期存在的问题是代谢物峰与来自头皮的大量脂质信号的光谱重叠，以及使光谱失真的压倒性水信号。对于高分辨率(-MRSI)，需要快速有效的方法来准确去除脂质和水信号，同时保留代谢物信号。尽管监督神经网络在其他(MRSI)处理中取得了成功，但其在此任务中的潜力仍未得到探索。

方法

我们引入了一种基于改进的(Y-NET)网络的深度学习方法，用于全脑(-MRSI)中的水和脂质去除。将(WALINET)（水和脂质神经网络）与传统方法进行比较，如最先进的脂质(L2)正则化和汉克尔 - 兰索斯奇异值分解（(HLSVD)）水抑制。使用(NMRSE)、(SNR)、(CRLB)和(FWHM)指标在模拟模型和体内全脑(MRSI)上对方法进行评估。

结果

(WALINET)速度明显更快，高分辨率全脑(MRSI)只需(8)秒，而传统的(HLSVD + L2)则需要(42)分钟。(WALINET)分别将大脑中的脂质和水抑制了(25 - 45)倍和(34 - 53)倍。(WALINET)的性能优于(HLSVD + L2)，具体表现为：（1）脂质去除更多，(NRMSE)降低(41%)；（2）在模拟数据中，代谢物信号保留更好，(NRMSE)降低(71%)；在体内数据中，(SNR)提高(155%)，(CRLB)降低(50%)。(WALINET)在健康受试者和患者中获得的代谢图谱显示出更好的灰质/白质对比度，结构细节更清晰。

结论

与传统的最先进技术相比，(WALINET)在全脑(-MRSI)的有害信号去除和代谢物定量方面具有卓越性能。这代表了深度学习在(MRSI)处理中的新应用，具有实现自动化高通量工作流程的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f43d/11782715/578ffd57e8c8/MRM-93-1430-g006.jpg

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WALINET：一种用于磁共振波谱成像中去除干扰信号的水脂识别卷积神经网络。

WALINET: A water and lipid identification convolutional neural network for nuisance signal removal in MR spectroscopic imaging.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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