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Article Dans Une Revue Diagnostic and Interventional Imaging Année : 2023

Automatic deep learning-based assessment of spinopelvic coronal and sagittal alignment

Mohamed Zerouali
  • Fonction : Auteur
Alexandre Parpaleix
Mansour Benbakoura
Caroline Rigault
  • Fonction : Auteur

Résumé

The purpose of this study was to evaluate an artificial intelligence (AI) solution for estimating coronal and sagittal spinopelvic alignment on conventional uniplanar two-dimensional whole-spine radiograph. Material and methods: This retrospective observational study included 100 patients (35 men, 65 women) with a median age of 14 years (IQR: 13, 15.25; age range: 3-64 years) who underwent conventional uniplanar two-dimensional whole-spine radiograph in standing position between January and July 2022. Ten most commonly used spinopelvic coronal and sagittal parameters were retrospectively measured without AI by a junior radiologist and approved or adjusted by a senior musculoskeletal radiologist to reach final measurements. Final measurements were used as the ground truth to assess AI performance for each parameter. AI performances were estimated using mean absolute errors (MAE), intraclass correlation coefficient (ICCs), and accuracy for selected clinically relevant thresholds. Readers visually classified AI outputs to assess reliability at a patient-level. Results: AI solution showed excellent consistency without bias in coronal (ICCs ≥ 0.95; MAE ≤ 2.9°or 1.97 mm) and sagittal (ICCs ≥ 0.85; MAE ≤ 4.4°or 2.7 mm) spinopelvic evaluation, except for kyphosis (ICC = 0.58; MAE = 8.7°). AI accuracy to classify low Cobb angle, severe scoliosis or frontal pelvic asymmetry was 91% (95% CI: 85-96), 99% (95% CI: 97-100) and 94% (95% CI: 89-98), respectively. Overall, AI provided reliable measurements in 72/100 patients (72%). Conclusion: The AI solution used in this study for combined coronal and sagittal spinopelvic balance assessment provides results consistent with those of a senior musculoskeletal radiologist, and shows potential benefit for reducing workload in future routine implementation.
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Dates et versions

hal-04483057 , version 1 (29-02-2024)

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Mohamed Zerouali, Alexandre Parpaleix, Mansour Benbakoura, Caroline Rigault, Pierre Champsaur, et al.. Automatic deep learning-based assessment of spinopelvic coronal and sagittal alignment. Diagnostic and Interventional Imaging, 2023, 104 (7-8), pp.343-350. ⟨10.1016/j.diii.2023.03.003⟩. ⟨hal-04483057⟩
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