BraceSim

Bibliographic references

  1. Aubin, C.E., et al., A study of biomechanical coupling between spine and rib cage in the treatment by orthosis of scoliosis. Ann Chir, 1996. 50(8): p. 641-50.
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  2. Gignac, D., et al., Optimization method for 3D bracing correction of scoliosis using a finite element model. Eur Spine J, 2000. 9(3): p. 185-90.
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  3. Perie, D., et al., Personalized biomechanical simulations of orthotic treatment in idiopathic scoliosis. Clin Biomech (Bristol, Avon), 2004. 19(2): p. 190-5.
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  4. Mac-Thiong, J.M., et al., Biomechanical evaluation of the Boston brace system for the treatment of adolescent idiopathic scoliosis: relationship between strap tension and brace interface forces. Spine (Phila Pa 1976), 2004. 29(1): p. 26-32.
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  5. Perie, D., et al., Biomechanical modelling of orthotic treatment of the scoliotic spine including a detailed representation of the brace-torso interface. Med Biol Eng Comput, 2004. 42(3): p. 339-44.
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  6. Clin, J., Aubin, C. E., & Labelle, H. (2007). Virtual prototyping of a brace design for the correction of scoliotic deformities. Med Biol Eng Comput, 45(5), 467-473.
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  7. Clin, J., et al., A new method to include gravity forces and compute the internal stresses in the scoliotic spine. Med Biol Eng Comput, 2011. 49(8): p. 967-77.
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  8. Clin J, Aubin CE, Parent S, Labelle H. Biomechanical modeling of brace treatment of scoliosis: effects of gravitational loads. Med Biol Eng Comput. 2011
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  9. Clin, J., et al., A biomechanical study of the Charleston brace for the treatment of scoliosis. Spine, 2010. 35(19): p. E940-E947.
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  10. Clin, J., et al., Correlation between immediate in-brace correction and biomechanical effectiveness of brace treatment in adolescent idiopathic scoliosis. Spine, 2010. 35(18): p. 1706-13.
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  11. Clin, J., et al., Comparison of the biomechanical 3D efficiency of different brace designs for the treatment of scoliosis using a finite element model. European Spine Journal, 2010. 19(7): p. 1169-1178.
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  12. Desbiens-Blais, F., et al., New Brace Design Combining CAD/CAM and Biomechanical Simulation for the Treatment of Adolescent Idiopathic Scoliosis. Clinical biomechanics, 2012. 27(10): p. 999-1005.
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  13. Nikita Cobetto, Carl-Éric Aubin, Julien Clin, Sylvie Le May, Frederique Desbiens-Blais, Hubert Labelle, Stefan Parent. Braces Optimized with Computer-Assisted Design and Simulations Are Lighter, Confortable and More Efficient than plaster-casted braces for the treatment of Adolescent Idiopathic scoliosis. Spine Deformity Journal, 2014. 2:4, 276-284
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Please contact us

Rodin4D
Parc Le Biogalien - Bâtiment B
27 Allée Charles Darwin
33600 Pessac (France)
See map

bracesim@rodin4d.com

Tel: (+33) (0)5 56 47 77 13
Fax: (+33) (0)5 56 47 77 14