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A deep learning model for detection of cervical spinal cord compression in MRI scans

by Wilson, Jefferson R. , Merali, Zamir , Wang, Justin Z. , Witiw, Christopher D. , Badhiwala, Jetan H. , Fehlings, Michael G.

in 692/53/2421 / 692/617 / 692/617/375 / Central nervous system diseases / Cervical Vertebrae - diagnostic imaging / Cohort Studies / Compression / Datasets / Deep Learning / Female / Humanities and Social Sciences / Humans / Magnetic resonance imaging / Magnetic Resonance Imaging - methods / Male / Middle Aged / multidisciplinary / Neural networks / Neural Networks, Computer / Patients / Primary care / Reproducibility of Results / Science / Science (multidisciplinary) / Sensitivity and Specificity / Spinal cord / Spinal Cord Compression - diagnostic imaging / Spine / Spine (cervical) / Surgery / Training

2021

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A deep learning model for detection of cervical spinal cord compression in MRI scans

by Wilson, Jefferson R. , Merali, Zamir , Wang, Justin Z. , Witiw, Christopher D. , Badhiwala, Jetan H. , Fehlings, Michael G.

2021

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A deep learning model for detection of cervical spinal cord compression in MRI scans

by Wilson, Jefferson R. , Merali, Zamir , Wang, Justin Z. , Witiw, Christopher D. , Badhiwala, Jetan H. , Fehlings, Michael G.

2021

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Journal Article

A deep learning model for detection of cervical spinal cord compression in MRI scans

Wilson, Jefferson R.,

Merali, Zamir,

Wang, Justin Z.,

Witiw, Christopher D.,

Badhiwala, Jetan H.,

Fehlings, Michael G.

2021

Overview

Magnetic Resonance Imaging (MRI) evidence of spinal cord compression plays a central role in the diagnosis of degenerative cervical myelopathy (DCM). There is growing recognition that deep learning models may assist in addressing the increasing volume of medical imaging data and provide initial interpretation of images gathered in a primary-care setting. We aimed to develop and validate a deep learning model for detection of cervical spinal cord compression in MRI scans. Patients undergoing surgery for DCM as a part of the AO Spine CSM-NA or CSM-I prospective cohort studies were included in our study. Patients were divided into a training/validation or holdout dataset. Images were labelled by two specialist physicians. We trained a deep convolutional neural network using images from the training/validation dataset and assessed model performance on the holdout dataset. The training/validation cohort included 201 patients with 6588 images and the holdout dataset included 88 patients with 2991 images. On the holdout dataset the deep learning model achieved an overall AUC of 0.94, sensitivity of 0.88, specificity of 0.89, and f1-score of 0.82. This model could improve the efficiency and objectivity of the interpretation of cervical spine MRI scans.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

692/53/2421

/ 692/617

/ 692/617/375

/ Central nervous system diseases

/ Cervical Vertebrae - diagnostic imaging

/ Cohort Studies

/ Compression