Deep Learning Approach for the Diagnosis of Pediatric Pneumonia Using Chest X-ray Imaging
This addresses the challenge of timely and accurate diagnosis for children with pneumonia, but it is incremental as it applies existing methods to a specific dataset.
This study tackled the problem of diagnosing pediatric pneumonia from chest X-ray images by evaluating three CNN architectures, with RegNet achieving the highest accuracy of 92.4% and sensitivity of 90.1%.
Pediatric pneumonia remains a leading cause of morbidity and mortality in children worldwide. Timely and accurate diagnosis is critical but often challenged by limited radiological expertise and the physiological and procedural complexity of pediatric imaging. This study investigates the performance of state-of-the-art convolutional neural network (CNN) architectures ResNetRS, RegNet, and EfficientNetV2 using transfer learning for the automated classification of pediatric chest Xray images as either pneumonia or normal.A curated subset of 1,000 chest X-ray images was extracted from a publicly available dataset originally comprising 5,856 pediatric images. All images were preprocessed and labeled for binary classification. Each model was fine-tuned using pretrained ImageNet weights and evaluated based on accuracy and sensitivity. RegNet achieved the highest classification performance with an accuracy of 92.4 and a sensitivity of 90.1, followed by ResNetRS (accuracy: 91.9, sensitivity: 89.3) and EfficientNetV2 (accuracy: 88.5, sensitivity: 88.1).