Kellgren-Lawrence grading of knee osteoarthritis using deep learning: Diagnostic performance with external dataset and comparison with four readers

Osteoarthritis and cartilage open Pub Date : 2025-02-07 DOI:10.1016/j.ocarto.2025.100580

Elias Vaattovaara , Egor Panfilov , Aleksei Tiulpin , Tuukka Niinimäki , Jaakko Niinimäki , Simo Saarakkala , Mika T. Nevalainen

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引用次数: 0

Abstract

Objective

To evaluate the performance of a deep learning (DL) model in an external dataset to assess radiographic knee osteoarthritis using Kellgren-Lawrence (KL) grades against versatile human readers.

Materials and methods

Two-hundred-eight knee anteroposterior conventional radiographs (CRs) were included in this retrospective study. Four readers (three radiologists, one orthopedic surgeon) assessed the KL grades and consensus grade was derived as the mean of these. The DL model was trained using all the CRs from Multicenter Osteoarthritis Study (MOST) and validated on Osteoarthritis Initiative (OAI) dataset and then tested on our external dataset. To assess the agreement between the graders, Cohen's quadratic kappa (k) with 95 % confidence intervals were used. Diagnostic performance was measured using confusion matrices and receiver operating characteristic (ROC) analyses.

Results

The multiclass (KL grades from 0 to 4) diagnostic performance of the DL model was multifaceted: sensitivities were between 0.372 and 1.000, specificities 0.691–0.974, PPVs 0.227–0.879, NPVs 0.622–1.000, and AUCs 0.786–0.983. The overall balanced accuracy was 0.693, AUC 0.886, and kappa 0.820. If only dichotomous KL grading (i.e. KL0-1 vs. KL2-4) was utilized, superior metrics were seen with an overall balanced accuracy of 0.902 and AUC of 0.967. A substantial agreement between each reader and DL model was found: the inter-rater agreement was 0.737 [0.685–0.790] for the radiology resident, 0.761 [0.707–0.816] for the musculoskeletal radiology fellow, 0.802 [0.761–0.843] for the senior musculoskeletal radiologist, and 0.818 [0.775–0.860] for the orthopedic surgeon.

Conclusion

In an external dataset, our DL model can grade knee osteoarthritis with diagnostic accuracy comparable to highly experienced human readers.

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使用深度学习的Kellgren-Lawrence膝关节骨关节炎分级：外部数据集的诊断性能和与四个阅读器的比较

目的在外部数据集中评估深度学习（DL）模型的性能，该模型使用Kellgren-Lawrence （KL）分级对多种人类读者进行放射膝骨关节炎评估。材料与方法回顾性研究了288张膝关节正位常规x线片（cr）。四名读者（三名放射科医生，一名骨科医生）评估KL评分，并得出共识评分作为这些评分的平均值。DL模型使用来自多中心骨关节炎研究（MOST）的所有cr进行训练，并在骨关节炎倡议（OAI）数据集上进行验证，然后在我们的外部数据集上进行测试。为了评估评分者之间的一致性，使用95%置信区间的科恩二次kappa (k)。诊断表现采用混淆矩阵和受试者工作特征（ROC）分析来衡量。结果DL模型的多分类（KL分级0 ~ 4）诊断性能是多方面的：敏感性为0.372 ~ 1.000，特异性为0.691 ~ 0.974，PPVs为0.227 ~ 0.879，npv为0.622 ~ 1.000，auc为0.786 ~ 0.983。总体平衡精度为0.693，AUC为0.886，kappa为0.820。如果仅使用二分类KL分级（即KL0-1 vs. KL2-4），则可以看到较好的指标，总体平衡精度为0.902，AUC为0.967。我们发现每位读者与DL模型之间存在很大的一致性：放射科住院医师的一致性为0.737[0.685-0.790]，肌肉骨骼放射科研究员的一致性为0.761[0.707-0.816]，高级肌肉骨骼放射科医师的一致性为0.802[0.761 - 0.843]，骨科医生的一致性为0.818[0.775-0.860]。在外部数据集中，我们的深度学习模型可以对膝关节骨关节炎进行分级，其诊断准确性与经验丰富的人类读者相当。

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

Osteoarthritis and cartilage open Orthopedics, Sports Medicine and Rehabilitation

CiteScore

3.30

自引率

0.00%

发文量