Abstract

Background: Early recognition of prostheses before reoperation can reduce perioperative morbidity and mortality. Because of the intricacy of the shoulder biomechanics, accurate classification of implant models before surgery is fundamental for planning the correct medical procedure and setting apparatus for personalized medicine. Expert surgeons usually use X-ray images of prostheses to set the patient-specific apparatus. However, this subjective method is time-consuming and prone to errors. Method: As an alternative, artificial intelligence has played a vital role in orthopedic surgery and clinical decision-making for accurate prosthesis placement. In this study, three different deep learning-based frameworks are proposed to identify different types of shoulder implants in X-ray scans. We mainly propose an efficient ensemble network called the Inception Mobile Fully-Connected Convolutional Network (IMFC-Net), which is comprised of our two designed convolutional neural networks and a classifier. To evaluate the performance of the IMFC-Net and state-of-the-art models, experiments were performed with a public data set of 597 de-identified patients (597 shoulder implants). Moreover, to demonstrate the generalizability of IMFC-Net, experiments were performed with two augmentation techniques and without augmentation, in which our model ranked first, with a considerable difference from the comparison models. A gradient-weighted class activation map technique was also used to find distinct implant characteristics needed for IMFC-Net classification decisions. Results: The results confirmed that the proposed IMFC-Net model yielded an average accuracy of 89.09%, a precision rate of 89.54%, a recall rate of 86.57%, and an F1.score of 87.94%, which were higher than those of the comparison models. Conclusion: The proposed model is efficient and can minimize the revision complexities of implants.

Highlights

  • The anatomy and biomechanics of the human shoulder, comprising different joints, are the most complicated parts of the human body [1]

  • Hough the experimental results showed that our proposed inception fully-connected convolutional network (IFC-Net) outperformed all prethe experimental results showed that our proposed IFC-Net outperformed all previous vious state-of-the-art methods, we further improved the performance by designing IMFCstate-of-the-art methods, we further improved the performance by designing IMFC-Net

  • To address overfitting and generalization issues, we considered the data of different patients in the training, validation, and testing phases

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Summary

Introduction

The anatomy and biomechanics of the human shoulder, comprising different joints, are the most complicated parts of the human body [1]. Hemiarthroplasty, total shoulder arthroplasty (TSA), and reverse total shoulder arthroplasty (RTSA) are surgical procedures to treat shoulder arthritis and relieve severe pain [4,5]. In these treatments, a prosthesis is used to reconstruct the impaired shoulder, restore its movement, and relieve pain. Because of the intricacy of the shoulder biomechanics, accurate classification of implant models before surgery is fundamental for planning the correct medical procedure and setting apparatus for personalized medicine. Expert surgeons usually use X-ray images of prostheses to set the patient-specific apparatus. This subjective method is time-consuming and prone to errors. We mainly propose an efficient ensemble network called the Inception Mobile Fully-Connected

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