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- Title
Clinical classification of scoliosis patients using machine learning and markerless 3D surface trunk data.
- Authors
Rothstock, Stephan; Weiss, Hans-Rudolf; Krueger, Daniel; Paul, Lothar
- Abstract
Markerless 3D surface topography for scoliosis diagnosis and brace treatment can avoid repeated radiation known from standard X-ray analysis and possible side effects. Combined with the method of torso asymmetry analysis, curve severity and progression can be evaluated with high reliability. In the current study, a machine learning approach was utilised to classify scoliosis patients based on their trunk surface asymmetry pattern. Frontal X-ray and 3D scanning analysis with a clinical classification based on Cobb angle and spinal curve pattern were performed with 50 patients. Similar as in a previous study, each patient's trunk 3D reconstruction was used for an elastic registration of a reference surface mesh with fixed number of vertices. Subsequently, an asymmetry distance map between original and reflected torso was calculated. A fully connected neural network was then utilised to classify patients regarding their Cobb angle (mild, moderate, severe) and an Augmented Lehnert-Schroth (ALS) classification based on their full torso asymmetry distance map. The results reveal a classification success rate of 90% (SE: 80%, SP: 100%) regarding the curve severity (mild vs moderate-severe) and 50–72% regarding the ALS group. Identifying patient curve severity and treatment group was reasonably possible allowing for a decision support during diagnosis and treatment planning.
- Subjects
SCOLIOSIS; MACHINE learning; THREE-dimensional display systems; SCOLIOSIS treatment; X-ray imaging
- Publication
Medical & Biological Engineering & Computing, 2020, Vol 58, Issue 12, p2953
- ISSN
0140-0118
- Publication type
Article
- DOI
10.1007/s11517-020-02258-x