AI Article Synopsis
- Scaphoid fractures, especially those that are subtle and non-displaced, are hard to identify using traditional X-rays; this study introduces a two-stage CNN system for better detection and classification using both anterior-posterior (AP) and lateral (LA) X-ray images.
- The method's first stage involves precisely locating the scaphoid bone with 100% accuracy using advanced detection techniques, while the second stage classifies fractures with nearly 90% accuracy by merging information from both X-ray views.
- Results show that the multi-view approach significantly enhances the detection capabilities for scaphoid fractures, achieving high accuracy rates for both detection and classification, particularly for hard-to-see fractures.
Article Abstract
Objective: Scaphoid fractures, particularly occult and non-displaced fractures, are difficult to detect using traditional X-ray methods because of their subtle appearance and variability in bone density. This study proposes a two-stage CNN approach to detect and classify scaphoid fractures using anterior-posterior (AP) and lateral (LA) X-ray views for more accurate diagnosis.
Methods: This study emphasizes the use of multi-view X-ray images (AP and LA views) to improve fracture detection and classification. The multi-view fusion module helps integrate information from both views to enhance detection accuracy, particularly for occult fractures that may not be visible in a single view. The proposed method includes two stages, which are stage 1: detect the scaphoid bone using Faster RCNN and a Feature Pyramid Network (FPN) for region proposal and small object detection. The detection accuracy for scaphoid localization is 100%, with Intersection over Union (IoU) scores of 0.8662 for AP views and 0.8478 for LA views. And stage 2: perform fracture classification using a ResNet backbone and FPN combined with a multi-view fusion module to combine features from both AP and LA views. This stage achieves a classification accuracy of 89.94%, recall of 87.33%, and precision of 90.36%.
Results: The proposed model performs well in both scaphoid bone detection and fracture classification. The multi-view fusion approach significantly improves recall and accuracy in detecting fractures compared to single-view approaches. In scaphoid detection, both AP and LA views achieved 100% detection accuracy. In fracture detection, using multi-view fusion, the accuracy for AP views reached 87.16%, and for LA views, it reached 83.83%.
Conclusions: The multi-view fusion model effectively improves the detection of scaphoid fractures, particularly in cases of occult and non-displaced fractures. The model provides a reliable, automated approach to assist clinicians in detecting and diagnosing scaphoid fractures more efficiently.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11545356 | PMC |
| http://dx.doi.org/10.3390/diagnostics14212425 | DOI Listing |
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