• Sayan Biswas, Ved Sarkar, Joshua Ian MacArthur, Li Guo, Xutao Deng, Ella Snowdon, Hamza Ahmed, Callum Tetlow, and K Joshi George.
• Specialized Foundation Doctor Training Programme, Edge Hill University, L39 4QP, Omskirk, England, United Kingdom. Electronic address: sayan.biswas@nca.nhs.uk.
• World Neurosurg. 2025 Jan 16: 123669123669.

ObjectiveCauda Equina Syndrome (CES) poses significant neurological risks if untreated. Diagnosis relies on clinical and radiological features. As the symptoms are often non specific and common, the diagnosis is usually made after a MRI scan. A huge number of MRI scans are done to exclude CES but nearly 80% of them will not have cauda equina syndrome. This study aimed to develop and validate a machine learning model for automated CES detection from MRI scans to enable faster triage of patients presenting with CES like clinical features.MethodsMRI scans from suspected CES patients (2017-2022) were collected and categorized into normal scans/disc protrusion (0%-50% canal stenosis (CS)) and cauda equina compression (CEC, >50% CS). A convolutional neural network was developed and tested on a total of 715 images (80:20 split) Gradient descent heatmaps were generated to highlight regions crucial for classification.ResultsThe model achieved an accuracy of 0.950 (0.921-0.971), a sensitivity of 0.969 (0.941-0.987), a specificity of 0.859 (0.742-0.937), a positive predictive value of 0.969 (0.944-0.984) and an area under the curve of 0.915 (0.865-0.958). Gradient descent heatmaps demonstrated accurate identification of any clinically relevant disc herniation into the spinal canal.ConclusionsThis study pilots a deep learning approach for predicting CEC presence, promising improved healthcare quality and timely CES management. As referrals rise, this tool can act as a fast triage system which can lead to prompt management of CES in environments where resources for radiological interpretation of mri scans is limited.Copyright © 2025. Published by Elsevier Inc.

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