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Delikaris, A., Wang, X., Boyer, L., Larson, A. N., Ledonio, C. G. T., & Aubin, C.-É. (2018). Implant density at the apex is more important than overall implant density for 3D correction in thoracic adolescent idiopathic scoliosis using rod derotation and en bloc vertebral derotation technique. Spine, 43(11), E639-E647. Lien externe
Benoit, D., Aubin, C.-É., Wang, X., & Crandall, D. G. (novembre 2018). Biomechanical analysis of surgical instrumentation for adult sagittal imbalance with pedicle subtraction osteotomy [Communication écrite]. 48e Réunion annuelle de la Société de scoliose du Québec, Bromont, Québec, Canada. Non disponible
Delikaris, A., Wang, X., Boyer, L., Larson, A. N., Ledonio, C. G. T., & Aubin, C.-É. (2018). Implant density at the apex is more important than overall implant density for 3D correction in thoracic adolescent idiopathic scoliosis using rod derotation and en bloc vertebral derotation technique. Spine, 43(11), E639-E647. Lien externe
Fradet, L., Wang, X., Crandall, D., & Aubin, C.-É. (2018). Biomechanical Analysis of Acute Proximal Junctional Failure After Surgical Instrumentation of Adult Spinal Deformity: The Impact of Proximal Implant Type, Osteotomy Procedures, and Lumbar Lordosis Restoration. Spine Deformity, 6(5), 483-491. Lien externe
Lopez Poncelas, M., Aubin, C.-É., Wang, X., & Crandall, D. G. (novembre 2018). Biomechanical Analysis of Proximal Junctional Failure for Different Proximal Fixations of the Spine [Communication écrite]. 48e Réunion annuelle de la Société de scoliose du Québec, Bromont, Québec, Canada. Non disponible
Wang, X., Aubin, C.-É., & Rawlinson, J. (2018). Cross-link Torsional Stability for Posterior Fixation in Spinal Fusion Surgery – Phase 1. (Rapport technique). Non disponible
Wang, X., Aubin, C.-É., & Rawlinson, J. (2018). Dual Construct in Adult Spinal Instrumentation Phase 1 – Biomechanical Analysis. (Rapport technique). Non disponible
Wang, X., Aubin, C.-É., & Rawlinson, J. (2018). Multi-rod Constructs Biomechanical Analysis Phase 1: Characterization of Load Sharing. (Rapport technique). Non disponible
Wang, X., Aubin, C.-É., & Rawlinson, J. (2018). Multi-rod Constructs Biomechanical Analysis Phase 2: Characterization of Load Sharing in Adult Instrumentation Involving PSO. (Rapport technique). Non disponible
Wang, X., Yeung, K., Cheung, J. P. Y., Lau, J. Y.-N., Qi, W., Cheung, K. M.-C., & Aubin, C.-É. (juin 2018). A novel scoliosis instrumentation using special superelastic nickel-titanium shape memory alloy spinal rods can result in equivalent correction as conventional rods but with less stress at bone-implant interface: a biomechanical evaluation through simulations [Résumé]. International Research Society of Spinal Deformities (IRSSD) 2018 Meeting, Utrecht, Netherlands. Publié dans Scoliosis and Spinal Disorders, 13(8). Lien externe
Wang, X., Yeung, K., Cheung, J. P. Y., Yiu-Nam Lau, J., Qi, W., Man-Chee Cheung, K., & Aubin, C.-É. (novembre 2018). A novel scoliosis instrumentation using superelastic nickel-titanium shape memory alloy rods : a biomechanical analysis [Communication écrite]. 48e Réunion annuelle de la Société de scoliose du Québec, Bromont, Québec, Canada. Non disponible