利用开源算法训练，由T1和T2 MRI序列生成的腰椎AI合成短反转恢复（STIR）图像。

AI-Generated Synthetic STIR of the Lumbar Spine from T1 and T2 MRI Sequences Trained with Open-Source Algorithms.

作者信息

Santilli Alice M L, Fontana Mark A, Xia Erwin E, Igbinoba Zenas, Tan Ek Tsoon, Sneag Darryl B, Chazen J Levi

机构信息

From the Orthopedic Data Innovation Lab (ODIL) (A.M.L.S., M.A.F.), Hospital for Special Surgery, New York, New York

From the Orthopedic Data Innovation Lab (ODIL) (A.M.L.S., M.A.F.), Hospital for Special Surgery, New York, New York.

出版信息

AJNR Am J Neuroradiol. 2025 Mar 4;46(3):552-558. doi: 10.3174/ajnr.A8512.

DOI:10.3174/ajnr.A8512

PMID:39805669

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11979812/

Abstract

BACKGROUND AND PURPOSE

Lumbar spine MRIs can be time consuming, stressful for patients, and costly to acquire. In this work, we train and evaluate open-source generative adversarial network (GAN) to create synthetic lumbar spine MRI STIR volumes from T1 and T2 sequences, providing a proof-of-concept that could allow for faster MRI examinations.

MATERIALS AND METHODS

A total of 1817 MRI examinations with sagittal T1, T2, and STIR sequences were accumulated and randomly divided into training, validation, and test sets. A GAN was trained to create synthetic STIR volumes by using the T1 and T2 volumes as inputs, optimized with the validation set, and then applied to the test set. Acquired and synthetic test set volumes were independently evaluated in a blinded, randomized fashion by 3 radiologists specializing in musculoskeletal imaging and neuroradiology. Readers assessed image quality, motion artifacts, perceived likelihood of the volume being acquired or synthetic, and the presence of 7 pathologies.

RESULTS

The optimal model leveraged a customized loss function that accentuated foreground pixels, achieving a structural similarity imaging metric of 0.842, mean absolute error of 0.028, and peak signal-to-noise ratio of 26.367. Radiologists could distinguish synthetic from acquired volumes; however, the synthetic volumes were of equal or better quality in 77% of test patients and demonstrated equivalent or decreased motion artifacts in 78% of test patients. For common pathologies, the synthetic volumes had high positive predictive value (75%-100%) but lower sensitivity (0%-67%).

CONCLUSIONS

This work links objective computer vision performance metrics and subject clinical evaluation of synthetic spine MRIs by using open-source and reproducible methodologies. High-quality synthetic volumes are generated, reproducing many important pathologies and demonstrating a potential means for expediting imaging protocols.

摘要

背景与目的

腰椎磁共振成像（MRI）检查耗时较长，给患者带来压力，且获取成本高昂。在本研究中，我们训练并评估了开源生成对抗网络（GAN），以根据T1和T2序列生成合成腰椎MRI短反转恢复（STIR）容积图像，为实现更快的MRI检查提供了概念验证。

材料与方法

共收集了1817例包含矢状面T1、T2和STIR序列的MRI检查数据，并随机分为训练集、验证集和测试集。训练一个GAN，以T1和T2容积图像作为输入来生成合成STIR容积图像，通过验证集进行优化，然后应用于测试集。由3名擅长肌肉骨骼成像和神经放射学的放射科医生以盲法、随机方式对获取的和合成的测试集容积图像进行独立评估。阅片者评估图像质量、运动伪影、容积图像为获取图像或合成图像的感知可能性以及7种病变的存在情况。

结果

最优模型采用了强调前景像素的定制损失函数，结构相似性成像指标为0.842，平均绝对误差为0.028，峰值信噪比为26.367。放射科医生能够区分合成图像和获取的图像；然而，在77%的测试患者中，合成图像的质量与获取图像相当或更好，在78%的测试患者中，合成图像的运动伪影相当或更少。对于常见病变，合成图像具有较高的阳性预测值（75%-100%），但敏感性较低（0%-67%）。

结论

本研究通过使用开源且可重复的方法，将客观的计算机视觉性能指标与合成脊柱MRI的主观临床评估联系起来。生成了高质量的合成容积图像，再现了许多重要病变，并展示了一种加快成像方案的潜在方法。

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利用开源算法训练，由T1和T2 MRI序列生成的腰椎AI合成短反转恢复（STIR）图像。

AI-Generated Synthetic STIR of the Lumbar Spine from T1 and T2 MRI Sequences Trained with Open-Source Algorithms.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景与目的

材料与方法

结果

结论

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