An Algorithmic Approach to Understanding Osteoarthritic Knee Pain.

IF 2.3 Q2 ORTHOPEDICS
JBJS Open Access Pub Date : 2023-10-03 eCollection Date: 2023-10-01 DOI:10.2106/JBJS.OA.23.00039
Brandon G Hill, Travis Byrum, Anthony Zhou, Peter L Schilling
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引用次数: 0

Abstract

Background: Osteoarthritic knee pain is a complex phenomenon, and multiple factors, both within the knee and external to it, can contribute to how the patient perceives pain. We sought to determine how well a deep neural network could predict osteoarthritic knee pain and other symptoms solely from a single radiograph view.

Methods: We used data from the Osteoarthritis Initiative, a 10-year observational study of patients with knee osteoarthritis. We paired >50,000 weight-bearing, posteroanterior knee radiographs with corresponding Knee Injury and Osteoarthritis Outcome Score (KOOS) pain, symptoms, and activities of daily living subscores and used them to train a series of deep learning models to predict those scores solely from raw radiographic input. We created regression models for specific score predictions and classification models to predict whether the modeled KOOS subscore exceeded a range of thresholds.

Results: The root-mean-square errors were 15.7 for KOOS pain, 13.1 for KOOS symptoms, and 14.2 for KOOS activities of daily living. Modeling was performed to predict whether pain was above or below given pain thresholds, and was able to predict extreme pain (KOOS pain < 40) with an area under the curve (AUC) of 0.78. Notably, the system was also able to correctly predict numerous cases where the Kellgren-Lawrence (KL) grade assigned by the radiologist was 0 but patient pain was high, and cases where the KL grade was 4 but patient pain was low.

Conclusions: A deep neural network can be trained to predict the osteoarthritic knee pain that a patient experienced and other symptoms with reasonable accuracy from a single posteroanterior view of the knee, even using low-resolution images. The system can predict pain and dysfunction that the traditional KL grade does not capture. Deep learning applied to raw imaging inputs holds promise for disentangling sources of pain within the knee from aggravating factors external to the knee.

Level of evidence: Diagnostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Abstract Image

Abstract Image

Abstract Image

一种理解骨关节炎性膝关节疼痛的算法方法。
背景:骨关节炎性膝关节疼痛是一种复杂的现象,膝关节内外的多种因素都会影响患者对疼痛的感知。我们试图确定深度神经网络仅从单一的放射学角度预测膝关节骨性关节炎疼痛和其他症状的效果。方法:我们使用了骨关节炎倡议的数据,这是一项针对膝骨关节炎患者的10年观察性研究。我们将50000张以上的负重、后前膝关节X线片与相应的膝关节损伤和骨关节炎结果评分(KOOS)疼痛、症状和日常生活活动分量表配对,并使用它们来训练一系列深度学习模型,仅从原始X线输入预测这些评分。我们创建了用于特定分数预测的回归模型和分类模型,以预测建模的KOOS子评分是否超过了一系列阈值。结果:KOOS疼痛的均方根误差为15.7,KOOS症状为13.1,日常生活活动为14.2。进行建模以预测疼痛是高于还是低于给定的疼痛阈值,并且能够预测曲线下面积(AUC)为0.78的极度疼痛(KOOS疼痛<40)。值得注意的是,该系统还能够正确预测放射科医生指定的Kellgren-Lawrence(KL)等级为0但患者疼痛较高的许多病例,以及KL等级为4但患者疼痛较低的病例。结论:即使使用低分辨率图像,也可以训练深度神经网络,从膝关节的单一后前视图以合理的准确性预测患者所经历的骨关节炎性膝关节疼痛和其他症状。该系统可以预测传统KL分级无法捕捉到的疼痛和功能障碍。应用于原始成像输入的深度学习有望将膝盖内的疼痛源与膝盖外的加重因素区分开来。证据级别:诊断级别III。有关证据级别的完整描述,请参阅作者说明。
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
JBJS Open Access
JBJS Open Access Medicine-Surgery
CiteScore
5.00
自引率
0.00%
发文量
77
审稿时长
6 weeks
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