基于髋形的自动化工作流程提高了 CHECK 研究中髋关节骨关节炎的个体化风险预测。

An automated workflow based on hip shape improves personalized risk prediction for hip osteoarthritis in the CHECK study.

机构信息

UMC Utrecht, Department of Orthopedics and Department of Radiology, Utrecht, the Netherlands.

UMC Utrecht, Department of Orthopedics and Department of Rheumatology & Clinical Immunology, Utrecht, the Netherlands; TU Delft, Department of Biomechanical Engineering, Delft, the Netherlands.

出版信息

Osteoarthritis Cartilage. 2020 Jan;28(1):62-70. doi: 10.1016/j.joca.2019.09.005. Epub 2019 Oct 8.

DOI:10.1016/j.joca.2019.09.005

PMID:31604136

Abstract

OBJECTIVE

To design an automated workflow for hip radiographs focused on joint shape and tests its prognostic value for future hip osteoarthritis.

DESIGN

We used baseline and 8-year follow-up data from 1,002 participants of the CHECK-study. The primary outcome was definite radiographic hip osteoarthritis (rHOA) (Kellgren-Lawrence grade ≥2 or joint replacement) at 8-year follow-up. We designed a method to automatically segment the hip joint from radiographs. Subsequently, we applied machine learning algorithms (elastic net with automated parameter optimization) to provide the Shape-Score, a single value describing the risk for future rHOA based solely on joint shape. We built and internally validated prediction models using baseline demographics, physical examination, and radiologists scores and tested the added prognostic value of the Shape-Score using Area-Under-the-Curve (AUC). Missing data was imputed by multiple imputation by chained equations. Only hips with pain in the corresponding leg were included.

RESULTS

84% were female, mean age was 56 (±5.1) years, mean BMI 26.3 (±4.2). Of 1,044 hips with pain at baseline and complete follow-up, 143 showed radiographic osteoarthritis and 42 were replaced. 91.5% of the hips had follow-up data available. The Shape-Score was a significant predictor of rHOA (odds ratio per decimal increase 5.21, 95%-CI (3.74-7.24)). The prediction model using demographics, physical examination, and radiologists scores demonstrated an AUC of 0.795, 95%-CI (0.757-0.834). After addition of the Shape-Score the AUC rose to 0.864, 95%-CI (0.833-0.895).

CONCLUSIONS

Our Shape-Score, automatically derived from radiographs using a novel machine learning workflow, may strongly improve risk prediction in hip osteoarthritis.

摘要

目的

设计一个专注于关节形态的髋关节 X 光自动化工作流程，并检验其对未来髋关节骨关节炎的预测价值。

设计

我们使用了来自 CHECK 研究的 1002 名参与者的基线和 8 年随访数据。主要结局是 8 年随访时明确的放射学髋关节骨关节炎（rHOA）（Kellgren-Lawrence 分级≥2 或关节置换）。我们设计了一种从 X 光片中自动分割髋关节的方法。随后，我们应用机器学习算法（具有自动参数优化的弹性网络）提供形状评分，这是一个仅基于关节形态描述未来 rHOA 风险的单一值。我们使用基线人口统计学、体格检查和放射科医生评分构建和内部验证预测模型，并使用曲线下面积（AUC）检验形状评分的附加预后价值。缺失数据通过链方程的多重插补进行填补。仅纳入有相应腿部疼痛的髋关节。

结果

84%为女性，平均年龄 56（±5.1）岁，平均 BMI 26.3（±4.2）。在基线和完整随访时有疼痛的 1044 个髋关节中，143 个显示放射学骨关节炎，42 个髋关节置换。91.5%的髋关节有随访数据。形状评分是 rHOA 的显著预测因素（每增加十分位数的比值比为 5.21，95%-CI（3.74-7.24））。使用人口统计学、体格检查和放射科医生评分的预测模型 AUC 为 0.795，95%-CI（0.757-0.834）。加入形状评分后，AUC 上升至 0.864，95%-CI（0.833-0.895）。

结论

我们的形状评分是使用一种新的机器学习工作流程从 X 光片中自动得出的，它可能会极大地提高髋关节骨关节炎的风险预测。

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基于髋形的自动化工作流程提高了 CHECK 研究中髋关节骨关节炎的个体化风险预测。

An automated workflow based on hip shape improves personalized risk prediction for hip osteoarthritis in the CHECK study.

机构信息

出版信息

OBJECTIVE

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

结论

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