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Application of deep learning algorithm to detect and visualize vertebral fractures on plain frontal radiographs

2021; Public Library of Science; Volume: 16; Issue: 1 Linguagem: Inglês

10.1371/journal.pone.0245992

1932-6203

Hsuan‐Yu Chen, Benny Wei‐Yun Hsu, Yu-Kai Yin, Feng‐Huei Lin, Tsung-Han Yang, Rong‐Sen Yang, Chih‐Kuo Lee, Vincent S. Tseng,

Bone health and osteoporosis research

Background Identification of vertebral fractures (VFs) is critical for effective secondary fracture prevention owing to their association with the increasing risks of future fractures. Plain abdominal frontal radiographs (PARs) are a common investigation method performed for a variety of clinical indications and provide an ideal platform for the opportunistic identification of VF. This study uses a deep convolutional neural network (DCNN) to identify the feasibility for the screening, detection, and localization of VFs using PARs. Methods A DCNN was pretrained using ImageNet and retrained with 1306 images from the PARs database obtained between August 2015 and December 2018. The accuracy, sensitivity, specificity, and area under the receiver operating characteristic curve (AUC) were evaluated. The visualization algorithm gradient-weighted class activation mapping (Grad-CAM) was used for model interpretation. Results Only 46.6% (204/438) of the VFs were diagnosed in the original PARs reports. The algorithm achieved 73.59% accuracy, 73.81% sensitivity, 73.02% specificity, and an AUC of 0.72 in the VF identification. Conclusion Computer driven solutions integrated with the DCNN have the potential to identify VFs with good accuracy when used opportunistically on PARs taken for a variety of clinical purposes. The proposed model can help clinicians become more efficient and economical in the current clinical pathway of fragile fracture treatment.