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Deep Learning Method for Precise Landmark Identification and Structural Assessment of Whole-Spine Radiographs

Authors
Noh, SH  | Lee, G | Bae, HJ | Han, JY | Son, SJ | Kim, D | Park, JY | Choi, SK | Cho, PG  | Kim, SH  | Yuh, WT | Lee, SH | Park, B | Kim, KR | Kim, KT | Ha, Y
Citation
Bioengineering (Basel, Switzerland), 11(5). : 481-481, 2024
Journal Title
Bioengineering (Basel, Switzerland)
ISSN
2306-5354
Abstract
This study measured parameters automatically by marking the point for measuring each parameter on whole-spine radiographs. Between January 2020 and December 2021, 1017 sequential lateral whole-spine radiographs were retrospectively obtained. Of these, 819 and 198 were used for training and testing the performance of the landmark detection model, respectively. To objectively evaluate the program’s performance, 690 whole-spine radiographs from four other institutions were used for external validation. The combined dataset comprised radiographs from 857 female and 850 male patients (average age 42.2 ± 27.3 years; range 20–85 years). The landmark localizer showed the highest accuracy in identifying cervical landmarks (median error 1.5–2.4 mm), followed by lumbosacral landmarks (median error 2.1–3.0 mm). However, thoracic landmarks displayed larger localization errors (median 2.4–4.3 mm), indicating slightly reduced precision compared with the cervical and lumbosacral regions. The agreement between the deep learning model and two experts was good to excellent, with intraclass correlation coefficient values >0.88. The deep learning model also performed well on the external validation set. There were no statistical differences between datasets in all parameters, suggesting that the performance of the artificial intelligence model created was excellent. The proposed automatic alignment analysis system identified anatomical landmarks and positions of the spine with high precision and generated various radiograph imaging parameters that had a good correlation with manual measurements.
Keywords

DOI
10.3390/bioengineering11050481
PMID
38790348
Appears in Collections:
Journal Papers > School of Medicine / Graduate School of Medicine > Neurosurgery
Ajou Authors
김, 상현  |  노, 성현  |  조, 평구
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