Exploring the Efficacy of Base Data Augmentation Methods in Deep Learning-Based Radiograph Classification of Knee Joint Osteoarthritis

Fabi Prezja, Leevi Annala, Sampsa Kiiskinen, Timo Ojala

Research output: Contribution to journalArticleScientificpeer-review

Abstract

Diagnosing knee joint osteoarthritis (KOA), a major cause of disability worldwide, is challenging due to subtle radiographic indicators and the varied progression of the disease. Using deep learning for KOA diagnosis requires broad, comprehensive datasets. However, obtaining these datasets poses significant challenges due to patient privacy and data collection restrictions. Additive data augmentation, which enhances data variability, emerges as a promising solution. Yet, it’s unclear which augmentation techniques are most effective for KOA. Our study explored data augmentation methods, including adversarial techniques. We used strategies like horizontal cropping and region of interest (ROI) extraction, alongside adversarial methods such as noise injection and ROI removal. Interestingly, rotations improved performance, while methods like horizontal split were less effective. We discovered potential confounding regions using adversarial augmentation, shown in our models’ accurate classification of extreme KOA grades, even without the knee joint. This indicated a potential model bias towards irrelevant radiographic features. Removing the knee joint paradoxically increased accuracy in classifying early-stage KOA. Grad-CAM visualizations helped elucidate these effects. Our study contributed to the field by pinpointing augmentation techniques that either improve or impede model performance, in addition to recognizing potential confounding regions within radiographic images of knee osteoarthritis.

Original languageEnglish
Article number8
JournalAlgorithms
Volume17
Number of pages23
ISSN1999-4893
DOIs
Publication statusPublished - Jan 2024
MoE publication typeA1 Journal article-refereed

Bibliographical note

Publisher Copyright:
© 2023 by the authors.

Fields of Science

  • adversarial augmentation
  • adversarial learning
  • data augmentation
  • data variability
  • deep learning
  • global disability
  • knee joint osteoarthritis (KOA)
  • technique selection
  • transfer learning
  • 113 Computer and information sciences

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