Xiehe Yixue Zazhi (Oct 2024)

Construction and Validation of A Deep Learning-based Bone Age Prediction Model for Children Living in Both Plain and Highland Regions

  • LIU Qixing,
  • WANG Huogen,
  • CIDAN Wangjiu,
  • TUDAN Awang,
  • YANG Meijie,
  • PUQIONG Qiongda,
  • YANG Xiao,
  • PAN Hui,
  • WANG Fengdan

DOI
https://doi.org/10.12290/xhyxzz.2023-0651
Journal volume & issue
Vol. 15, no. 6
pp. 1439 – 1446

Abstract

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ObjectiveTo construct and validate a deep learning-based bone age prediction model for children living in both plain and highland regions.MethodsA model named "ethnicity vision gender-bone age net (EVG-BANet)" was trained using three datasets, including the Radiology Society of North America (RSNA) dataset [training set(n=12 611), validation set (n=1425), test set (n=200)], the Radiological Hand Pose Estimation (RHPE) dataset[training set (n=5491), validation set (n=713), test set (n=79)], and a self-established dataset[training set (n=825), test set (n=351)], and it was validated using an external test set. Self-established dataset retrospectively recruited 1176 left-hand DR images of children from Peking Union Medical College Hospital (n=745, all were Han) and Tibet Autonomous Region People's Hospital (n=431, 114 were Han, 317 were Tibetan). External test set included images from People's Hospital of Nagqu (n=256, all were Tibetan). Mean absolute difference (MAD) and accuracy within 1 year were used as indicators.ResultsEVG-BANet exhibited MAD of 0.34 and 0.52 years in RSNA and RHPE test sets, respectively. In the self-established test set, the model achieved MAD of 0.47 years (95% CI: 0.43-0.50) with accuracy within 1 year of 97.72% (95% CI: 95.56-99.01%). For the external test set, MAD was 0.53 years(95% CI: 0.48-0.58), with accuracy within 1 year of 89.45% (95% CI: 85.03-92.93).ConclusionEVG-BANet demonstrated high accuracy in bone age prediction, and therefore can be applied in children living in both plain and highland.

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