3D inference of the scoliotic spine from depth maps of the back
Inférence 3D du rachis scoliotique depuis une carte de profondeur du dos
Résumé
Recent advances combining outer images and deep-learning algorithms (DLA) show promising results in the detection and the characterization of the Adolescent Idiopathic Scoliosis (AIS). However, these methods are providing a limited 2D characterization while scoliosis is defined in 3D. In this study we propose an inference method that takes as input a depth map of the back of a person and outputs the 3D shape estimation of the thoracolumbar spine. Our DLA method predicts 3D vertebrae positions with an average 3D error of 7.1mm (std: 4.7mm). From the predicted 3D positions, scoliosis can be located and estimated with a mean absolute error (MAE) of 5.5° (std: 6.2°) in the frontal plane. Moreover, sagittal alignments can be estimated with a MAE of 6.4° (std: 5.5°) in kyphosis and 8.3° (std: 6.8°) in lordosis. In addition, our nonionizing approach can detect scoliosis with an accuracy of 89%.
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