Abstract
Although electromyography is the routine diagnostic method for cubital tunnel syndrome (CuTS), imaging diagnosis by measuring cross-sectional area (CSA) with ultrasonography (US) has also been attempted in recent years. In this study, deep learning (DL), an artificial intelligence (AI) method, was used on US images, and its diagnostic performance for detecting CuTS was investigated. Elbow images of 30 healthy volunteers and 30 patients diagnosed with CuTS were used. Three thousand US images were prepared per each group to visualize the short axis of the ulnar nerve. Transfer learning was performed on 5000 randomly selected training images using three pre-trained models, and the remaining images were used for testing. The model was evaluated by analyzing a confusion matrix and the area under the receiver operating characteristic curve. Occlusion sensitivity and locally interpretable model-agnostic explanations were used to visualize the features deemed important by the AI. The highest score had an accuracy of 0.90, a precision of 0.86, a recall of 1.00, and an F-measure of 0.92. Visualization results show that the DL models focused on the epineurium of the ulnar nerve and the surrounding soft tissue. The proposed technique enables the accurate prediction of CuTS without the need to measure CSA.
Highlights
Cubital tunnel syndrome (CuTS) is an entrapment neuropathy caused by the compression and traction of the ulnar nerve at the elbow joint [1]
A prior sample size calculation performed at the start of this study showed that a difference in cross-sectional area (CSA) of 3 mm2 was detectable in two groups, with a sample size of 26 participants (13 in each group), using a t-test
The diagnosis of entrapment neuropathy by convolutional neural networks (CNNs) has not been reported. Since this is the first application of deep learning (DL) to US images of CuTS, this study focuses on comparing the diagnostic accuracy, using three popular pretrained DL models, and visualizing the basis for decision
Summary
Atrophy of the hypothenar and first dorsal interosseous muscles occurs, which may interfere with daily activities [1]
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