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Evaluation of a Patient-Specific Finite-Element Model to Simulate Conservative Treatment in Adolescent Idiopathic Scoliosis

Article dans une revue avec comité de lecture
Author
RIBES, Gwenael
AUBERT, Benjamin
ADAM, Clayton
MILADI, Lotfi
414766 Hôpital Necker - Enfants Malades [AP-HP]
ABELIN-GENEVOIS, Kariman
194495 Université Claude Bernard Lyon 1 [UCBL]
353860 Centre Hospitalier Lyon Sud [CHU - HCL] [CHLS]
ccSKALLI, Wafa
ccROUCH, Philippe
170650 Arts et Métiers ParisTech
484605 LBM/institute de Biomécanique humaine Georges Charpak
ccVERGARI, Claudio

URI
http://hdl.handle.net/10985/17978
DOI
10.1016/j.jspd.2014.06.014
Date
2015
Journal
Spine Deformity

Abstract

Study design: Retrospective validation study. Objectives: To propose a method to evaluate, from a clinical standpoint, the ability of a finite-element model (FEM) of the trunk to simulate orthotic correction of spinal deformity and to apply it to validate a previously described FEM. Summary of background data: Several FEMs of the scoliotic spine have been described in the literature. These models can prove useful in understanding the mechanisms of scoliosis progression and in optimizing its treatment, but their validation has often been lacking or incomplete. Methods: Three-dimensional (3D) geometries of 10 patients before and during conservative treatment were reconstructed from biplanar radiographs. The effect of bracing was simulated by modeling displacements induced by the brace pads. Simulated clinical indices (Cobb angle, T1eT12 and T4eT12 kyphosis, L1eL5 lordosis, apical vertebral rotation, torsion, rib hump) and vertebral orientations and positions were compared to those measured in the patients’ 3D geometries. Results: Errors in clinical indices were of the same order of magnitude as the uncertainties due to 3D reconstruction; for instance, Cobb angle was simulated with a root mean square error of 5.7 , and rib hump error was 5.6 . Vertebral orientation was simulated with a root mean square error of 4.8 and vertebral position with an error of 2.5 mm. Conclusions: The methodology proposed here allowed in-depth evaluation of subject-specific simulations, confirming that FEMs of the trunk have the potential to accurately simulate brace action. These promising results provide a basis for ongoing 3D model development, toward the design of more efficient orthoses.

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