Browsing by Author "Priya Choudhary"
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PublicationArticle Radiologist-Inspired Meniscus Injury Detection Using MobileNetV3-SVM with Grad-CAM Visualization(Springer Science and Business Media Deutschland GmbH, 2025) Priya Choudhary; Abha Jaiswal; Debadutta Dash; Ashish Verma; Shiru Sharma; Neeraj K. SharmaPurpose: Meniscus injuries are common intra-articular knee pathologies caused by trauma, degeneration, or overuse, often leading to pain, swelling, and restricted mobility. Early and accurate diagnosis of meniscal injuries is essential to prevent long-term joint damage. Despite MRI being the gold standard, manual interpretation is time-consuming and prone to variability, particularly when differentiating subtle tears from degeneration. This study proposes a radiologist-inspired framework integrating preprocessing and lightweight hybrid classification using MobilenetV3 as feature extractor and Radial basis function – Support vector machine (RBF- SVM) as classifier to improve diagnostic performance. Methods: Sagittal fat-suppressed knee MRI images were pre-processed using an empirically derived formula to enhance visibility of linear hyperintensities (tears), diffuse patches (degeneration), and their co-occurrence. A two-stage hierarchical classification pipeline was implemented: binary classification (Normal vs. Diseased) followed by multi-class classification (Tear, Degeneration, Tear with Degeneration) using MobileNetV3 for feature extraction and an RBF-SVM for classification. Grad-CAM was applied for interpretability analysis. Results: The proposed framework achieved an AUC of 1.0 for binary and > 0.98 for multi-class classification. Accuracy improved from 73.88% on raw data to 95.75% after preprocessing. Sensitivity, specificity, precision, and F1-score for multi-class classification were 96.12%, 95.40%, 95.88%, and 95.60%, respectively, demonstrating balanced performance across all categories. Grad-CAM confirmed model attention on the meniscus region, consistent with radiologist focus. Conclusion: The proposed method demonstrates high accuracy, speed, and interpretability through efficient feature extraction and robust classification, with a lightweight and computationally efficient design enabling real-time clinical deployment. However, Grad-CAM visualizations confirm model focus on the meniscus region to support interpretability. © Taiwanese Society of Biomedical Engineering 2025.