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Documents dont l'auteur est "Rawlinson, Jeremy"

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Nombre de documents: 18

Lopez Poncelas, M., La Barbera, L., Rawlinson, J., Crandall, D., & Aubin, C.-É. (2023). Proximal junctional failure after surgical instrumentation in adult spinal deformity: biomechanical assessment of proximal instrumentation stiffness. Spine Deformity, 11(1), 59-69. Lien externe

Wang, X., Aubin, C.-É., Armstrong, R., & Rawlinson, J. (2022). How do additional rods reduce loads on the primary rods in adult spinal instrumentation with pedicle subtraction osteotomy? Clinical Biomechanics, 93, 7 pages. Lien externe

La Barbera, L., Larson, A. N., Rawlinson, J., & Aubin, C.-É. (2021). In silico patient-specific optimization of correction strategies for thoracic adolescent idiopathic scoliosis. Clinical Biomechanics, 81, 105200 (11 pages). Lien externe

Dube-Cyr, R., Villemure, I., Arnoux, P. J., Rawlinson, J., & Aubin, C.-É. (2021). Instrumentation of the sacroiliac joint with cylindrical threaded implants: A detailed finite element study of patient characteristics affecting fixation performance. Journal of Orthopaedic Research, 39(12), 2693-2702. Lien externe

Wang, X., Aubin, C.-É., Armstrong, R., & Rawlinson, J. (octobre 2019). Biomechanical effects of additional rods in spinal instrumentation with pedicle subtraction osteotomy [Communication écrite]. 49e Réunion annuelle de la Société de scoliose du Québec, Québec City, Québec, Canada. Non disponible

Wang, X., Aubin, C.-É., Ritzman, T., McBride, L., Rawlinson, J., & Diaz, C. (2019). Differential Rod Contouring Simulation. (Rapport technique). Non disponible

Aubin, C.-É., Armstrong, R., Rawlinson, J., & Wang, X. (juin 2019). How do additional rods reduce loading of the primary rods in adult spinal instrumentation with pedicle subtraction osteotomy? [Communication écrite]. 2nd International Combined Meeting of Orthopaedic Research Societies (ICORS) and the Canadian Orthopaedic Association and Canadian Orthopaedic Research Society, Montréal, Québec, Canada. Non disponible

Aubin, C.-É., Clin, J., & Rawlinson, J. (2018). Biomechanical simulations of costo-vertebral and anterior vertebral body tethers for the fusionless treatment of pediatric scoliosis. Journal of Orthopaedic Research, 36(1), 254-264. Lien externe

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., Aubin, C.-É., & Rawlinson, J. (2017). 3-D Correction of Adolescent Idiopathic Scoliosis: A Biomechanical Simulation of Spinal Instrumentation Using APEX and Standard Spinal Rods. (Rapport technique). Non disponible

Wang, X., Aubin, C.-É., & Rawlinson, J. (2017). APEX Rod Correction Project –Phase 1. (Rapport technique). Non disponible

Wang, X., Aubin, C.-É., Coleman, J., & Rawlinson, J. (2017). Correction capability in the 3 anatomic planes of different pedicle screw designs in scoliosis instrumentation. Clinical Spine Surgery, 30(4), E323-E330. Lien externe

Wang, X., Aubin, C.-É., & Rawlinson, J. (2015). Biomechanical Modeling and Simulations of Scoliosis Instrumentation using Tether Connectors (Tether Connector Simulation Project – Phase 1). (Rapport technique). Non disponible

Wang, X., Aubin, C.-É., & Rawlinson, J. (2015). Biomechanical Modeling and Simulations of Scoliosis Instrumentation using Tether Connectors (Tether Connector Simulation Project – Phase 1b). (Rapport technique). Non disponible

Wang, X., Aubin, C.-É., Coleman, J., & Rawlinson, J. (2012). Biomechanical Performance of Sagittal Adjusting Screws (SAS) - Phase 1. (Rapport technique). Non disponible

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