Exploring the Impact of 3D Fast Spin Echo and Inversion Recovery Gradient Echo Sequences Magnetic Resonance Imaging Acquisition on Automated Brain Tumor Segmentation

Mayo Clinic Proceedings. Digital health Pub Date : 2024-04-16 DOI:10.1016/j.mcpdig.2024.03.006

Mana Moassefi MD , Shahriar Faghani MD , Sara Khanipour Roshan MD , Gian Marco Conte MD, PhD , Seyed Moein Rassoulinejad Mousavi MD , Timothy J. Kaufmann MD , Bradley J. Erickson MD, PhD

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Abstract

Objective

To conduct a study comparing the performance of automated segmentation techniques using 2 different contrast-enhanced T1-weighted (CET1) magnetic resonance imaging (MRI) acquisition protocol.

Patients and Methods

We collected 100 preoperative glioblastoma (GBM) MRIs consisting of 50 IR-GRE and 50 3-dimensional fast spin echo (3D-FSE) image sets. Their gold-standard tumor segmentation mask was created based on the expert opinion of a neuroradiologist. Cases were randomly divided into training and test sets. We used the no new UNet (nnUNet) architecture pretrained on the 501-image public data set containing IR-GRE sequence image sets, followed by 2 training rounds with the IR-GRE and 3D-FSE images, respectively. For each patient, in the IR-GRE and 3D-FSE test sets, we had 2 prediction masks, one from the model fine-tuned with the IR-GRE training set and one with 3D-FSE. The dice similarity coefficients (DSCs) of the 2 sets of results for each case in the test sets were compared using the Wilcoxon tests.

Results

Models trained on 3D-FSE images outperformed IR-GRE models in lesion segmentation, with mean DSC differences of 0.057 and 0.022 in the respective test sets. For the 3D-FSE and IR-GRE test sets, the calculated P values comparing DSCs from 2 models were .02 and .61, respectively.

Conclusion

Including 3D-FSE MRI in the training data set improves segmentation performance when segmenting 3D-FSE images.

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探索三维快速自旋回波和反转恢复梯度回波序列磁共振成像采集对脑肿瘤自动分割的影响

患者和方法我们收集了 100 张术前胶质母细胞瘤（GBM）MRI 图像，其中包括 50 张 IR-GRE 和 50 张三维快速自旋回波（3D-FSE）图像集。他们的金标准肿瘤分割掩膜是根据神经放射学专家的意见制作的。病例被随机分为训练集和测试集。我们使用无新UNet（nnUNet）架构，在包含IR-GRE序列图像集的501张公共数据集上进行预训练，然后分别使用IR-GRE和3D-FSE图像进行两轮训练。在 IR-GRE 和 3D-FSE 测试集中，我们为每位患者设置了 2 个预测掩码，一个来自使用 IR-GRE 训练集微调的模型，另一个来自使用 3D-FSE 的模型。使用 Wilcoxon 检验比较了测试集中每个病例的两组结果的骰子相似系数（DSC）。结果在病变分割方面，3D-FSE 图像上训练的模型优于 IR-GRE 模型，两个测试集中的平均 DSC 差值分别为 0.057 和 0.022。对于 3D-FSE 和 IR-GRE 测试集，比较 2 个模型的 DSC 计算出的 P 值分别为 0.02 和 0.61。结论将 3D-FSE MRI 纳入训练数据集可提高 3D-FSE 图像分割时的分割性能。

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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来源期刊

Mayo Clinic Proceedings. Digital health Medicine and Dentistry (General), Health Informatics, Public Health and Health Policy

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47 days