Optimized Urological Diagnostics based on Kidney Stone Detection in Clinical CT Imaging Using YOLOv8 Deep Learning Approach

Abstract

Kidney stone disease poses a growing global health challenge due to its increasing prevalence and potential for serious complications if left undiagnosed or untreated. Non-contrast computed tomography (CT) remains the gold standard for detecting renal calculi; however, the manual review of CT scans is time-consuming and prone to variability among radiologists. This study introduces the application of deep learning-based object detection model for automated kidney stone detection in abdominal CT images. Four state-of-the-art models, YOLOv8, YOLOv5, Faster R-CNN, and RetinaNet, were evaluated on a curated dataset of 4,000 annotated CT slices from both pre-and postsurgical patient groups. Performance metrics including mean Average Precision (mAP@0.5), precision, recall, false positive/negative rates, and inference speed were analyzed. YOLOv8 achieved a compelling balance between accuracy (mAP@0.91) and real-time inference capability (65 FPS), making it the most practical for clinical integration. While Faster R-CNN demonstrated superior localization accuracy (mAP@0.93), its slower inference speed limits its utility in time-sensitive environments. These findings highlight the potential of single-stage detectors, particularly YOLOv8, for enhancing diagnostic efficiency and consistency in urological imaging workflows.