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Abstract
Machine learning (ML) holds great promise in transforming healthcare. While published studies have shown the utility of ML models in interpreting medical imaging examinations, these are often evaluated under laboratory settings. The importance of real world evaluation is best illustrated by case studies that have documented successes and failures in the translation of these models into clinical environments. A key prerequisite for the clinical adoption of these technologies is demonstrating generalizable ML model performance under real world circumstances. The purpose of this study was to demonstrate that ML model generalizability is achievable in medical imaging with the detection of intracranial hemorrhage (ICH) on non-contrast computed tomography (CT) scans serving as the use case. An ML model was trained using 21,784 scans from the RSNA Intracranial Hemorrhage CT dataset while generalizability was evaluated using an external validation dataset obtained from our busy trauma and neurosurgical center. This real world external validation dataset consisted of every unenhanced head CT scan (n = 5965) performed in our emergency department in 2019 without exclusion. The model demonstrated an AUC of 98.4%, sensitivity of 98.8%, and specificity of 98.0%, on the test dataset. On external validation, the model demonstrated an AUC of 95.4%, sensitivity of 91.3%, and specificity of 94.1%. Evaluating the ML model using a real world external validation dataset that is temporally and geographically distinct from the training dataset indicates that ML generalizability is achievable in medical imaging applications.
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1 St. Michael’s Hospital, Li Ka Shing Centre for Healthcare Analytics Research and Training, Toronto, Canada (GRID:grid.415502.7); University of Toronto, Department of Electrical and Computer Engineering, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938)
2 Fujisawa, Kanagawa, Japan (GRID:grid.17063.33)
3 St. Michael’s Hospital, Unity Health Toronto, Department of Medical Imaging, Toronto, Canada (GRID:grid.415502.7); University of Toronto, Faculty of Medicine, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938)
4 St. Michael’s Hospital, Li Ka Shing Centre for Healthcare Analytics Research and Training, Toronto, Canada (GRID:grid.415502.7); St. Michael’s Hospital, Unity Health Toronto, Department of Medical Imaging, Toronto, Canada (GRID:grid.415502.7); University of Toronto, Faculty of Medicine, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938)
5 St. Michael’s Hospital, Li Ka Shing Centre for Healthcare Analytics Research and Training, Toronto, Canada (GRID:grid.415502.7)
6 St. Michael’s Hospital, Li Ka Shing Centre for Healthcare Analytics Research and Training, Toronto, Canada (GRID:grid.415502.7); University of Toronto, Faculty of Medicine, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938); University of Toronto, Division of Neurosurgery, Department of Surgery, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938)
7 St. Michael’s Hospital, Li Ka Shing Centre for Healthcare Analytics Research and Training, Toronto, Canada (GRID:grid.415502.7); University of Toronto, Faculty of Medicine, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938); University of Toronto, Leslie Dan Faculty of Pharmacy, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938); University of Toronto, Dalla Lana Faculty of Public Health, Toronto, Canada (GRID:grid.17063.33) (ISNI:0000 0001 2157 2938)