基于全自动深度卷积神经网络分割的大腿脂肪组织的局部 MRI 测量与经过质量控制的手动分割相比，对体重的双向变化具有相当的反应性。

Local MRI-based measures of thigh adipose tissue derived from fully automated deep convolutional neural network-based segmentation show a comparable responsiveness to bidirectional change in body weight as from quality controlled manual segmentation.

机构信息

Department of Imaging and Functional Musculoskeletal Research, Institute of Anatomy and Cell Biology, Paracelsus Medical University Salzburg & Nuremberg, Salzburg, Austria; Faculty of Computer Science, University of Vienna, Vienna, Austria.

Department of Imaging and Functional Musculoskeletal Research, Institute of Anatomy and Cell Biology, Paracelsus Medical University Salzburg & Nuremberg, Salzburg, Austria.

出版信息

Ann Anat. 2022 Feb;240:151866. doi: 10.1016/j.aanat.2021.151866. Epub 2021 Nov 23.

DOI:10.1016/j.aanat.2021.151866

PMID:34823014

Abstract

BACKGROUND

Thigh intermuscular (IMF) and subcutaneous (SCF) fat are associated with joint function, inflammation and knee osteoarthritis. Fully automated segmentation from MRI is important to study the above relationship in larger cohorts. However, such algorithms are not clinically evaluated for longitudinal studies. Our aim was to evaluate a fully automated U-Net segmentation approach and its ability to detect longitudinal changes in thigh IMF and SCF during weight changes compared to manual segmentation.

METHODS

103 Osteoarthritis Initiative subjects, were studied, 52 with> 10% weight loss, and 51 with> 10% weight gain over 2-years. Longitudinal change in IMF and SCF were determined from baseline and year-2 axial thigh MRIs using U-Net segmentation. The standardised response mean (SRM) was used as measure of sensitivity to change.

RESULTS

The U-Net took substantially less time (single-slice MRI:< 1 s) and IMF and SCF showed very similar sensitivity to change as manual segmentation: With an average weight gain of + 14%, we observed an + 12% /+ 26% increase in IMF / SCF (SRM=0.99 /1.03) using the U-Net, compared with + 21% /+ 27% (SRM=0.60 /1.07) for manual segmentation. During an average weight loss of - 18%, we observed an - 14% /- 22% reduction in IMF /SCF (SRM = - 1.04 /-1.20) using the U-Net, compared with - 16% /- 22% (SRM = - 0.70 /-1.23) for manual segmentation.

CONCLUSION

U-Net segmentation replicates longitudinal changes of IMF and SCF associated with weight changes with a similar sensitivity to change as manual segmentation. This method is applicable to large databases for studying relationships between IMF and SCF and various disease conditions.

摘要

背景

大腿肌间（IMF）和皮下（SCF）脂肪与关节功能、炎症和膝骨关节炎有关。从 MRI 中进行完全自动化的分割对于在更大的队列中研究上述关系非常重要。然而，这种算法尚未在纵向研究中进行临床评估。我们的目的是评估一种完全自动化的 U-Net 分割方法，并评估其在体重变化期间检测大腿 IMF 和 SCF 纵向变化的能力，与手动分割相比。

方法

对 103 名骨关节炎倡议（Osteoarthritis Initiative）受试者进行了研究，其中 52 名受试者体重减轻超过 10%，51 名受试者体重增加超过 10%，为期 2 年。使用 U-Net 分割从基线和第 2 年的轴向大腿 MRI 中确定 IMF 和 SCF 的纵向变化。标准反应均值（SRM）被用作衡量变化敏感性的指标。

结果

U-Net 分割所需的时间明显更少（单张 MRI：<1 s），IMF 和 SCF 对变化的敏感性与手动分割非常相似：平均体重增加 14%时，我们观察到 IMF / SCF 分别增加了 12%/26%（U-Net 的 SRM=0.99/1.03），而手动分割的则分别增加了 21%/27%（SRM=0.60/1.07）。在平均体重减轻 18%的情况下，我们观察到 IMF / SCF 分别减少了 14%/22%（U-Net 的 SRM=-1.04/-1.20），而手动分割的则分别减少了 16%/22%（SRM=-0.70/-1.23）。

结论

U-Net 分割复制了与体重变化相关的 IMF 和 SCF 的纵向变化，与手动分割相比具有相似的变化敏感性。这种方法适用于大型数据库，用于研究 IMF 和 SCF 与各种疾病状况之间的关系。

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基于全自动深度卷积神经网络分割的大腿脂肪组织的局部 MRI 测量与经过质量控制的手动分割相比，对体重的双向变化具有相当的反应性。

Local MRI-based measures of thigh adipose tissue derived from fully automated deep convolutional neural network-based segmentation show a comparable responsiveness to bidirectional change in body weight as from quality controlled manual segmentation.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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