使用卷积神经网络对退行性颈椎病患者受压脊髓进行磁共振图像分割
Magnetic resonance image segmentation of the compressed spinal cord in patients with degenerative cervical myelopathy using convolutional neural networks.
作者信息
Nozawa Kyohei, Maki Satoshi, Furuya Takeo, Okimatsu Sho, Inoue Takaki, Yunde Atsushi, Miura Masataka, Shiratani Yuki, Shiga Yasuhiro, Inage Kazuhide, Eguchi Yawara, Ohtori Seiji, Orita Sumihisa
机构信息
Department of Medical Engineering, Graduate School of Science and Engineering, Chiba University, Chiba, Japan.
Department of Orthopaedic Surgery, Chiba University Graduate School of Medicine, Chiba, Japan.
出版信息
Int J Comput Assist Radiol Surg. 2023 Jan;18(1):45-54. doi: 10.1007/s11548-022-02783-0. Epub 2022 Nov 7.
PURPOSE
Spinal cord segmentation is the first step in atlas-based spinal cord image analysis, but segmentation of compressed spinal cords from patients with degenerative cervical myelopathy is challenging. We applied convolutional neural network models to segment the spinal cord from T2-weighted axial magnetic resonance images of DCM patients. Furthermore, we assessed the correlation between the cross-sectional area segmented by this network and the neurological symptoms of the patients.
METHODS
The CNN architecture was built using U-Net and DeepLabv3 + and PyTorch. The CNN was trained on 2762 axial slices from 174 patients, and an additional 517 axial slices from 33 patients were held out for validation and 777 axial slices from 46 patients for testing. The performance of the CNN was evaluated on a test dataset with Dice coefficients as the outcome measure. The ratio of CSA at the maximum compression level to CSA at the C2 level, as segmented by the CNN, was calculated. The correlation between the spinal cord CSA ratio and the Japanese Orthopaedic Association score in DCM patients from the test dataset was investigated using Spearman's rank correlation coefficient.
RESULTS
The best Dice coefficient was achieved when U-Net was used as the architecture and EfficientNet-b7 as the model for transfer learning. Spearman's r between the spinal cord CSA ratio and the JOA score of DCM patients was 0.38 (p = 0.007), showing a weak correlation.
CONCLUSION
Using deep learning with magnetic resonance images of deformed spinal cords as training data, we were able to segment compressed spinal cords of DCM patients with a high concordance with expert manual segmentation. In addition, the spinal cord CSA ratio was weakly, but significantly, correlated with neurological symptoms. Our study demonstrated the first steps needed to implement automated atlas-based analysis of DCM patients.
目的
脊髓分割是基于图谱的脊髓图像分析的第一步,但对患有退行性颈椎病患者的受压脊髓进行分割具有挑战性。我们应用卷积神经网络模型从退行性颈椎病患者的T2加权轴向磁共振图像中分割脊髓。此外,我们评估了该网络分割的横截面积与患者神经症状之间的相关性。
方法
使用U-Net、DeepLabv3 +和PyTorch构建卷积神经网络架构。该卷积神经网络在来自174名患者的2762个轴向切片上进行训练,另外将来自33名患者的517个轴向切片留出用于验证,将来自46名患者的777个轴向切片用于测试。以Dice系数作为结果指标,在测试数据集上评估卷积神经网络的性能。计算卷积神经网络分割的最大压缩水平处的CSA与C2水平处的CSA之比。使用Spearman等级相关系数研究测试数据集中退行性颈椎病患者的脊髓CSA比率与日本骨科协会评分之间的相关性。
结果
当使用U-Net作为架构并使用EfficientNet-b7作为迁移学习模型时,获得了最佳Dice系数。退行性颈椎病患者的脊髓CSA比率与JOA评分之间的Spearman相关系数r为0.38(p = 0.007),显示出弱相关性。
结论
以变形脊髓的磁共振图像作为训练数据使用深度学习,我们能够分割退行性颈椎病患者的受压脊髓,与专家手动分割具有高度一致性。此外,脊髓CSA比率与神经症状之间存在弱但显著的相关性。我们的研究展示了对退行性颈椎病患者实施基于图谱的自动分析所需的第一步。
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