Bioengineering (Jul 2024)

Deep Learning-Based Automated Measurement of Murine Bone Length in Radiographs

  • Ruichen Rong,
  • Kristin Denton,
  • Kevin W. Jin,
  • Peiran Quan,
  • Zhuoyu Wen,
  • Julia Kozlitina,
  • Stephen Lyon,
  • Aileen Wang,
  • Carol A. Wise,
  • Bruce Beutler,
  • Donghan M. Yang,
  • Qiwei Li,
  • Jonathan J. Rios,
  • Guanghua Xiao

DOI
https://doi.org/10.3390/bioengineering11070670
Journal volume & issue
Vol. 11, no. 7
p. 670

Abstract

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Genetic mouse models of skeletal abnormalities have demonstrated promise in the identification of phenotypes relevant to human skeletal diseases. Traditionally, phenotypes are assessed by manually examining radiographs, a tedious and potentially error-prone process. In response, this study developed a deep learning-based model that streamlines the measurement of murine bone lengths from radiographs in an accurate and reproducible manner. A bone detection and measurement pipeline utilizing the Keypoint R-CNN algorithm with an EfficientNet-B3 feature extraction backbone was developed to detect murine bone positions and measure their lengths. The pipeline was developed utilizing 94 X-ray images with expert annotations on the start and end position of each murine bone. The accuracy of our pipeline was evaluated on an independent dataset test with 592 images, and further validated on a previously published dataset of 21,300 mouse radiographs. The results showed that our model performed comparably to humans in measuring tibia and femur lengths (R2 > 0.92, p-value = 0) and significantly outperformed humans in measuring pelvic lengths in terms of precision and consistency. Furthermore, the model improved the precision and consistency of genetic association mapping results, identifying significant associations between genetic mutations and skeletal phenotypes with reduced variability. This study demonstrates the feasibility and efficiency of automated murine bone length measurement in the identification of mouse models of abnormal skeletal phenotypes.

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