Automated classification of shoulder radiology focusing on cuff tear arthropathy and glenoid erosion using AI
Michael Axenhus, Martin Magnéli, Jacob Gislén, Johan Fagrell, Petter Ling, Yilmaz Demir, Erica Domeij Arverud, Kristofer Hallberg, Björn Salomonsson, Max Gordon

TL;DR
This study uses AI to classify shoulder disorders like cuff tear arthropathy and glenoid erosion from X-rays, showing strong performance in advanced disease stages.
Contribution
A novel AI model is proposed for classifying CTA and glenoid erosion on plain radiographs using Hamada and Favard systems.
Findings
The AI model achieved AUCs of 0.95 for Hamada grades 3 and 4.
Performance for Hamada grades 0–2 and glenoid erosion ranged from AUCs of 0.81 to 0.91.
The model showed robust accuracy with a heterogeneous dataset, suggesting potential for real-world use.
Abstract
Recent advancements in the field artificial intelligence (AI), particularly in the architecture of convolutional neural network (CNN) architecture, have revolutionized medical imaging by enabling accurate image recognition. However, the application of AI in identifying degenerative musculoskeletal disorders, specifically on plain radiographs, is still poorly explored. The aim of this study is to classify cuff tear arthropathy (CTA) and glenoid erosion using AI on plain shoulder radiographs, using the Hamada and Favard classification systems. We used a publicly available CNN trained for image recognition and trained it using a diverse dataset of 6733 shoulder and clavicle X-ray images covering various clinical conditions. The performance of the network was evaluated in detail on a validation set of 561 images. Metrics such as sensitivity, specificity, Youden’s index, and Area Under…
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Taxonomy
TopicsShoulder Injury and Treatment · COVID-19 diagnosis using AI · Medical Imaging and Analysis
