Abstract
Dental panoramic radiographs (DPRs) provide information required to potentially evaluate bone density changes through a textural and morphological feature analysis on a mandible. This study aims to evaluate the discriminating performance of deep convolutional neural networks (CNNs), employed with various transfer learning strategies, on the classification of specific features of osteoporosis in DPRs. For objective labeling, we collected a dataset containing 680 images from different patients who underwent both skeletal bone mineral density and digital panoramic radiographic examinations at the Korea University Ansan Hospital between 2009 and 2018. Four study groups were used to evaluate the impact of various transfer learning strategies on deep CNN models as follows: a basic CNN model with three convolutional layers (CNN3), visual geometry group deep CNN model (VGG-16), transfer learning model from VGG-16 (VGG-16_TF), and fine-tuning with the transfer learning model (VGG-16_TF_FT). The best performing model achieved an overall area under the receiver operating characteristic of 0.858. In this study, transfer learning and fine-tuning improved the performance of a deep CNN for screening osteoporosis in DPR images. In addition, using the gradient-weighted class activation mapping technique, a visual interpretation of the best performing deep CNN model indicated that the model relied on image features in the lower left and right border of the mandibular. This result suggests that deep learning-based assessment of DPR images could be useful and reliable in the automated screening of osteoporosis patients.
Highlights
Osteoporosis is a systemic disease characterized by low bone mineral density (BMD) and micro-architectural deterioration of bone structure, thereby leading to compromised bone strength and, an increased risk of fracture [1]
Dental panoramic radiographs (DPRs) are commonly performed for the evaluation of dentition and adjacent structures of the jaw, some clinical assistant diagnosis (CAD) systems based on DPRs have been suggested for screening systemic diseases, such as osteoporosis and carotid artery calcification [13,14,15,16,17,18,19,20,21,22,23,43]
The first major findings of the present study showed that applying appropriate transfer learning and fine-tuning techniques on pre-trained deep convolutional neural networks (CNNs) architectures had an equivalent DPR-based osteoporosis screening level of previous studies, even with small image datasets, without complex image preprocessing and image region of interest (ROI) settings
Summary
Osteoporosis is a systemic disease characterized by low bone mineral density (BMD) and micro-architectural deterioration of bone structure, thereby leading to compromised bone strength and, an increased risk of fracture [1]. It is expected that more people will be affected by osteoporosis in the future and, the rate of osteoporotic fractures will increase [8]. This is because the disease initially develops without any symptoms, remains undiagnosed due to scarce symptomatology, and its first manifestation is often a low-energy fracture of long bones or vertebrae [9]
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