Deep learning-based structure segmentation and intramuscular fat annotation on lumbar magnetic resonance imaging

IF 3.4 3区 医学 Q1 ORTHOPEDICS JOR Spine Pub Date : 2024-09-17 DOI:10.1002/jsp2.70003
Yefu Xu, Shijie Zheng, Qingyi Tian, Zhuoyan Kou, Wenqing Li, Xinhui Xie, Xiaotao Wu
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Abstract

Background

Lumbar disc herniation (LDH) is a prevalent cause of low back pain. LDH patients commonly experience paraspinal muscle atrophy and fatty infiltration (FI), which further exacerbates the symptoms of low back pain. Magnetic resonance imaging (MRI) is crucial for assessing paraspinal muscle condition. Our study aims to develop a dual-model for automated muscle segmentation and FI annotation on MRI, assisting clinicians evaluate LDH conditions comprehensively.

Methods

The study retrospectively collected data diagnosed with LDH from December 2020 to May 2022. The dataset was split into a 7:3 ratio for training and testing, with an external test set prepared to validate model generalizability. The model's performance was evaluated using average precision (AP), recall and F1 score. The consistency was assessed using the Dice similarity coefficient (DSC) and Cohen's Kappa. The mean absolute percentage error (MAPE) was calculated to assess the error of the model measurements of relative cross-sectional area (rCSA) and FI. Calculate the MAPE of FI measured by threshold algorithms to compare with the model.

Results

A total of 417 patients being evaluated, comprising 216 males and 201 females, with a mean age of 49 ± 15 years. In the internal test set, the muscle segmentation model achieved an overall DSC of 0.92 ± 0.10, recall of 92.60%, and AP of 0.98. The fat annotation model attained a recall of 91.30%, F1 Score of 0.82, and Cohen's Kappa of 0.76. However, there was a decrease on the external test set. For rCSA measurements, except for longissimus (10.89%), the MAPE of other muscles was less than 10%. When comparing the errors of FI for each paraspinal muscle, the MAPE of the model was lower than that of the threshold algorithm.

Conclusion

The models demonstrate outstanding performance, with lower error in FI measurement compared to thresholding algorithms.

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基于深度学习的腰椎磁共振成像结构分割和肌肉内脂肪标注
背景腰椎间盘突出症(LDH)是腰痛的常见原因。腰椎间盘突出症患者通常会出现脊柱旁肌肉萎缩和脂肪浸润(FI),从而进一步加重腰痛症状。磁共振成像(MRI)是评估脊柱旁肌肉状况的关键。我们的研究旨在开发一种用于在核磁共振成像上自动进行肌肉分割和 FI 注释的双重模型,以帮助临床医生全面评估 LDH 状况。 方法 研究回顾性收集了 2020 年 12 月至 2022 年 5 月期间诊断为 LDH 的数据。数据集按 7:3 的比例分成训练集和测试集,并准备了一个外部测试集来验证模型的通用性。模型的性能使用平均精确度(AP)、召回率和 F1 分数进行评估。一致性采用骰子相似系数(DSC)和科恩卡帕(Cohen's Kappa)进行评估。计算平均绝对百分比误差(MAPE)以评估模型测量相对横截面积(rCSA)和 FI 的误差。计算阈值算法测量的 FI 的 MAPE,以便与模型进行比较。 结果 共有 417 名患者接受了评估,其中男性 216 人,女性 201 人,平均年龄为 49 ± 15 岁。在内部测试集中,肌肉分割模型的总体 DSC 为 0.92 ± 0.10,召回率为 92.60%,AP 为 0.98。脂肪标注模型的召回率为 91.30%,F1 得分为 0.82,Cohen's Kappa 为 0.76。不过,外部测试集的结果有所下降。在 rCSA 测量中,除了长肌(10.89%)外,其他肌肉的 MAPE 均小于 10%。在比较每块脊柱旁肌肉的 FI 误差时,模型的 MAPE 均低于阈值算法。 结论 与阈值算法相比,模型的 FI 测量误差更小,表现出卓越的性能。
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来源期刊
JOR Spine
JOR Spine ORTHOPEDICS-
CiteScore
6.40
自引率
18.90%
发文量
42
审稿时长
10 weeks
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