Abstract
Background and Objectives: A few deep learning studies have reported that combining image features with patient variables enhanced identification accuracy compared with image-only models. However, previous studies have not statistically reported the additional effect of patient variables on the image-only models. This study aimed to statistically evaluate the osteoporosis identification ability of deep learning by combining hip radiographs with patient variables. Materials andMethods: We collected a dataset containing 1699 images from patients who underwent skeletal-bone-mineral density measurements and hip radiography at a general hospital from 2014 to 2021. Osteoporosis was assessed from hip radiographs using convolutional neural network (CNN) models (ResNet18, 34, 50, 101, and 152). We also investigated ensemble models with patient clinical variables added to each CNN. Accuracy, precision, recall, specificity, F1 score, and area under the curve (AUC) were calculated as performance metrics. Furthermore, we statistically compared the accuracy of the image-only model with that of an ensemble model that included images plus patient factors, including effect size for each performance metric. Results: All metrics were improved in the ResNet34 ensemble model compared with the image-only model. The AUC score in the ensemble model was significantly improved compared with the image-only model (difference 0.004; 95% CI 0.002–0.0007; p = 0.0004, effect size: 0.871). Conclusions: This study revealed the additional effect of patient variables in identification of osteoporosis using deep CNNs with hip radiographs. Our results provided evidence that the patient variables had additive synergistic effects on the image in osteoporosis identification.
Highlights
Osteoporosis is a socially important disease with a high incidence in the aging society and is one of the risk factors for fragility fractures [1,2]
Recent review articles have reported that artificial intelligence (AI) technology developments have led to efficient applications in osteoporosis identification [7,8]
Yamamoto et al reported that convolutional neural network (CNN) models diagnosed osteoporosis for hip radiographs with high accuracy, and the diagnostic ability improved further with the addition of clinical patient variables [11]
Summary
Osteoporosis is a socially important disease with a high incidence in the aging society and is one of the risk factors for fragility fractures [1,2]. Yamamoto et al reported that convolutional neural network (CNN) models diagnosed osteoporosis for hip radiographs with high accuracy, and the diagnostic ability improved further with the addition of clinical patient variables [11]. A few deep learning studies have reported that combining image features with patient variables enhanced identification accuracy compared with image-only models. This study aimed to statistically evaluate the osteoporosis identification ability of deep learning by combining hip radiographs with patient variables. We statistically compared the accuracy of the imageonly model with that of an ensemble model that included images plus patient factors, including effect size for each performance metric. Conclusions: This study revealed the additional effect of patient variables in identification of osteoporosis using deep CNNs with hip radiographs. Our results provided evidence that the patient variables had additive synergistic effects on the image in osteoporosis identification
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