K. Abumi, Y. Shono, M. Ito, H. Taneichi, Y. Kotani et al., Complications of pedicle screw fixation in reconstructive surgery of the cervical spine, Spine, vol.25, issue.8, pp.362-2436, 2000.

H. Alosh, D. Li, L. H. Riley, and R. L. Skolasky, Health Care Burden of Anterior Cervical Spine Surgery, Journal of Spinal Disorders and Techniques, vol.28, issue.1, pp.5-11, 2015.

M. Alpayci, E. Senköy, V. Delen, V. Sah, L. Yazmalar et al., Decreased neck muscle strength in patients with the loss of cervical lordosis, Clinical Biomechanics, vol.33, pp.98-102, 2016.

C. Amabile, Quantitative analysis and biomechanical modeling of the balance alteration during aging, École Nationale Supérieure d'Arts et Métiers, 2016.
URL : https://hal.archives-ouvertes.fr/tel-01381264

, American Society of Mechanical Engineers. Guide for verification and validation in computational solid mechanics, American Society of Mechanical Engineers, 2006.

A. E. Anderson, B. J. Ellis, and J. A. Weiss, Verification, Validation and Sensitivity Studies in Computational Biomechanics, Computer Methods in Biomechanics and Biomedical Engineering, vol.10, issue.3, pp.1171-184, 2012.

N. Arjmand and A. Shirazi-adl, Model and in vivo studies on human trunk load partitioning and stability in isometric forward flexions, Journal of Biomechanics, vol.39, issue.3, pp.510-521, 2006.

N. Arjmand, D. Gagnon, A. Plamondon, A. Shirazi-adl, and C. Larivière, Comparison of trunk muscle forces and spinal loads estimated by two biomechanical models, Clinical Biomechanics, vol.24, issue.7, pp.533-541, 2009.

F. Azari, N. Arjmand, A. Shirazi-adl, and T. Rahimi-moghaddam, A combined passive and active musculoskeletal model study to estimate L4-L5 load sharing, Journal of Biomechanics, 2017.

A. A. Baaj, Number of Cervical Spine Surgeries Increased in the Last Decade, 2017.

S. Baron, E. Ahearne, P. Connolly, S. Keaveney, and G. Byrne, An Assessment of Medical Grade Cobalt Chromium Alloy ASTM F1537 as a "Difficult-to-Cut (DTC)" Material, Proceedings of the Machine Tool Technologies Research Foundation 2015 Annual Meeting, vol.12, pp.24-26, 2017.

C. Barrey, M. Rousseau, S. Persohn, S. Campana, G. Perrin et al., Relevance of using a compressive preload in the cervical spine: an experimental and numerical simulating investigation, European Journal of Orthopaedic Surgery & Traumatology, vol.25, issue.S1, pp.155-165, 2015.

J. C. Bean, D. B. Chaffin, and A. B. Schultz, Biomechanical model calculation of muscle contraction forces: a double linear programming method, Journal of biomechanics, vol.21, issue.1, pp.90192-90195, 1988.

E. J. Belin, D. E. Gelb, and E. Y. Koh, Complications in cervical spine surgeries, Seminars in Spine Surgery, vol.26, issue.2, pp.106-113, 2014.

E. I. Ben-abraham, J. Chen, J. P. Felmlee, P. Rossman, A. Manduca et al., Feasibility of MR elastography of the intervertebral disc, Magnetic Resonance Imaging, 2015.

A. Bergmark, Stability of the lumbar spine, Acta Orthopaedica Scandinavica, vol.60, pp.1-54, 1989.

P. Bernhardt, H. Wilke, K. H. Wenger, B. Jungkunz, A. Böhm et al., Multiple muscle force simulation in axial rotation of the cervical spine, Clinical Biomechanics, vol.14, issue.1, p.31, 1999.

A. H. Bernstein, D. T. Reilly, and M. Martens, Aging of Bone Tissue: Mechanical Properties, Journal of Bone Joint Surgery, vol.58, issue.1, pp.82-86, 1976.

N. A. Bernstein, The coordination and regulation of movements, 1967.

J. Adam, A. S. Bevevino, and . Hilibrand, Adjacent segment disease: Incidence and recommended treatment, Seminars in Spine Surgery, vol.28, issue.2, pp.107-114, 2016.

J. E. Bible and J. D. Kang, Anterior cervical discectomy and fusion: Surgical indications and outcomes, Seminars in Spine Surgery, vol.28, pp.80-83, 2016.

J. E. Bible and J. Y. Lee, Complications associated with anterior cervical surgery, Seminars in Spine Surgery, pp.1-5, 2015.

S. L. Blumenthal, D. D. Ohnmeiss, R. D. Guyer, and J. E. Zigler, Reoperations in cervical total disc replacement compared with anterior cervical fusion, Spine, vol.38, issue.14, pp.1177-1182, 2013.

D. Bonneau, Conduite à tenir thérapeutique manuelle : les techniques neuromusculaires, pp.1-30

D. Bonneau, Thérapeutique manuelle. Dunod, Malakoff, vol.9782100754281, 2017.

L. Bresnahan, G. Richard, . Fessler, and . Raghu-n-natarajan, Evaluation of change in muscle activity as a result of posterior lumbar spine surgery using a dynamic modeling system, Spine, vol.35, issue.16, pp.761-768, 2010.

K. Brolin and P. Halldin, Development of a finite element model of the upper cervical spine and a parameter study of ligament characteristics, Spine, vol.29, issue.4, pp.376-385, 2004.

K. Brolin, P. Halldin, and I. Leijonhufvud, The Effect of Muscle Activation on Neck Response, Traffic Injury Prevention, vol.6, issue.1, pp.67-76, 2005.

M. Bydon and Z. L. Gokaslan, Surgeon Perspective on Complications after Surgery for Cervical Myelopathy, World Neurosurgery, vol.84, issue.1, pp.4-5, 2015.

P. G. Campbell, S. Yadla, J. Malone, B. Zussman, M. G. Maltenfort et al., Early complications related to approach in cervical spine surgery: Single-center prospective study, World Neurosurgery, vol.74, issue.2-3, pp.363-368, 2010.

V. C. Chancey, R. W. Nightingale, C. A. Van-ee, K. E. Knaub, and B. S. Myers, Improved estimation of human neck tensile tolerance: reducing the range of reported tolerance using anthropometrically correct muscles and optimized physiologic initial conditions, Stapp car crash journal, vol.47, pp.135-53, 2003.

R. F. Chandler and J. Young, Uniform Mass Distribution Properties and Body Size appropriate for the 50-percentile Male Aircrewmember during 1980-1990, 1981.

J. Chazal, A. Tanguy, M. Bourges, G. Gaurel, G. Escande et al., Biomechanical properties of spinal ligaments and a histological study of the supraspinal ligament in traction, Journal of Biomechanics, vol.18, issue.3, pp.167-176, 1985.

W. Chen, J. Jin, T. Park, K. Ryu, and S. Lee, Strain behavior of malaligned cervical spine implanted with metal-on-polyethylene, metal-on-metal, and elastomeric artificial disc prostheses -A finite element analysis, Clinical Biomechanics, vol.59, pp.19-26, 2018.

C. Cheng, H. K. Cheng, C. P. Chen, K. Lin, W. Liu et al., Altered Co-contraction of Cervical Muscles in Young Adults with Chronic Neck Pain during Voluntary Neck Motions, Journal of physical therapy science, vol.26, issue.4, pp.587-90, 2014.

J. P. Cheung, K. , and D. Luk, Complications of Anterior and Posterior Cervical Spine Surgery, Asian Spine Journal, vol.10, issue.2, p.385, 2016.

H. Choi, Quantitative assessment of co-contraction in cervical musculature, Medical Engineering & Physics, vol.25, pp.133-140, 2003.

H. Choi and R. Vanderby, Comparison of Biomechanical Human Neck Models: Muscles Forces and Spinal Loads at C4/C5 Level, Journal of Applied Biomechanics, vol.15, pp.120-138, 1999.

J. Choisne, C. Travert, J. Valiadis, H. Follet, and W. Skalli, A New Method to determine Volumetric Bone Mineral Density from Bi-planar Dual Energy Radiographs using a Finite Element Model: an ex-vivo Study, Journal of Musculoskeletal Research, vol.20, issue.3, pp.1-12, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02353786

J. Cholewicki and S. M. Mcgill, Mechanical stability of the in vivo lumbar spine: Implications for injury and chronic low back pain, Clinical Biomechanics, vol.11, issue.1, pp.35-41, 1996.

J. Cholewicki, S. M. Mcgill, and R. W. Norman, Comparison of muscle forces and joint load from an optimization and EMG assisted lumbar spine model: towards development of a hybrid approach, Journal of Biomechanics, vol.28, issue.3, pp.321-331, 1995.

J. D. Clausen, Experimental and Theoretical Investigation of Cervical Spine Biomechanics: Effects of Injury and Stabilization, 1996.

J. D. Clausen, V. K. Goel, V. C. Traynelis, and J. Scifert, Uncinate processes and Luschka joints influence the biomechanics of the cervical spine: Quantification using a finite element model of the C5-C6 segment, Journal of Orthopaedic Research, vol.15, issue.3, pp.342-347, 1997.

C. E. Clauser, J. T. Mcconville, and J. W. Young, Aerospace Medical Research Laboratory, 1969.

A. Completo, A. Nascimento, A. Ramos, and J. Simões, Failure analysis of C-5 after total disc replacement with ProDisc-C at 1 and 2 levels and in combination with a fusion cage: finite-element and biomechanical models, Journal of Neurosurgery: Spine, vol.22, issue.6, pp.639-646, 2015.

P. Côté, G. Van-der-velde, J. D. Cassidy, L. J. Carroll, S. Hogg-johnson et al., The Burden and Determinants of Neck Pain in Workers, Spine, vol.33, pp.60-74, 2008.

R. Crockett, M. Roba, M. Naka, B. Gasser, D. Delfosse et al., Friction, lubrication, and polymer transfer between UHMWPE and CoCrMo hip-implant materials: A fluorescence microscopy study, Journal of Biomedical Materials Research -Part A, vol.89, issue.4, pp.1011-1018, 2009.

R. B. Delamarter and J. Zigler, Five-year reoperation rates, cervical total disc replacement versus fusion, results of a prospective randomized clinical trial, Spine, vol.38, issue.9, pp.711-717, 2013.

W. T. Dempster, Space Requirements of the seated operator, 1955.

W. T. Dempster and G. R. Gaughran, Properties of body segments based on size and weight, American Journal of Anatomy, vol.120, issue.1, pp.33-54, 1967.

J. A. Dewit and D. S. Cronin, Cervical spine segment finite element model for traumatic injury prediction, Journal of the Mechanical Behavior of Biomedical Materials, vol.10, pp.138-150, 2012.

M. Dreischarf, T. Zander, A. Shirazi-adl, C. M. Puttlitz, C. J. Adam et al., Comparison of eight published static finite element models of the intact lumbar spine: Predictive power of models improves when combined together, Journal of Biomechanics, vol.47, issue.8, pp.1757-1766, 2014.

M. Dreischarf, A. Shirazi-adl, N. Arjmand, A. Rohlman, and H. Schmidt, Estimation of loads on human lumbar spine: A review of in vivo and computational model studies, Journal of Biomechanics, vol.49, issue.6, pp.833-845, 2016.

Y. Duan, H. Zhang, S. Min, L. Zhang, and A. Jin, Posterior cervical fixation following laminectomy: A stress analysis of three techniques, European Spine Journal, vol.20, issue.9, pp.1552-1559, 2011.

Y. Duan, H. H. Wang, A. M. Jin, L. Zhang, S. X. Min et al., Finite element analysis of posterior cervical fixation, Orthopaedics and Traumatology: Surgery and Research, vol.101, issue.1, pp.23-29, 2015.

G. Dubois-;-references-r, R. Dumas, J. A. Aissaoui, and . De-guise, Contribution à la modélisation musculo-squelettique personnalisée du membre inférieur combinant stéréoradiographie et ultrason, Computer Methods in Biomechanics and Biomedical Engineering, vol.7, issue.3, pp.159-166, 2004.

F. E. Masri, E. De-sapin-brosses, K. Rhissassi, W. Skalli, and D. Mitton, Apparent Young's modulus of vertebral cortico-cancellous bone specimens, Computer Methods in Biomechanics and Biomedical Engineering, vol.15, issue.1, pp.23-28, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02121734

D. U. Erbulut, I. Zafarparandeh, I. Lazoglu, and A. F. Ozer, Application of an asymmetric finite element model of the C2-T1 cervical spine for evaluating the role of soft tissues in stability, Medical Engineering and Physics, vol.36, issue.7, pp.915-921, 2014.

A. Erdemir, T. M. Guess, J. Halloran, S. C. Tadepalli, and T. M. Morrison, Considerations for reporting finite element analysis studies in biomechanics, Journal of Biomechanics, vol.45, issue.4, pp.625-633, 2012.

D. M. Espino, J. R. Meakin, D. W. Hukins, and J. E. Reid, Stochastic finite element analysis of biological systems: Comparison of a simple intervertebral disc model with experimental results, Computer Methods in Biomechanics and Biomedical Engineering, vol.6, issue.4, pp.243-248, 2003.

F. G. Evans, Mechanical Properties of Bone, 1973.

F. Ezquerro, A. Simón, M. Prado, and A. Pérez, Combination of finite element modeling and optimization for the study of lumbar spine biomechanics considering the 3D thorax-pelvis orientation, Medical Engineering and Physics, vol.26, issue.1, pp.11-22, 2004.

A. Faizan, V. K. Goel, A. Biyani, S. R. Garfin, and C. M. Bono, Adjacent level effects of bi level disc replacement, bi level fusion and disc replacement plus fusion in cervical spine-a finite element based study, Clinical Biomechanics, vol.27, issue.3, pp.226-233, 2012.

A. Faizan, V. K. Goel, S. R. Garfin, C. M. Bono, H. Serhan et al., Do design variations in the artificial disc influence cervical spine biomechanics? A finite element investigation, European Spine Journal, vol.21, pp.653-662, 2012.

D. Falla, D. Farina, M. K. Dahl, T. Graven-nielsen, M. K. Dahl et al., Muscle pain induces task-dependent changes in cervical agonist/antagonist activity, Journal of Applied Physiology, vol.102, issue.2, pp.601-609, 2007.

R. Fejer, K. O. Kyvik, and J. Hartvigsen, The prevalence of neck pain in the world population: A systematic critical review of the literature, European Spine Journal, vol.15, issue.6, pp.834-848, 2006.

C. Fernández-de-las-peñas, D. Falla, L. Arendt-nielsen, and D. Farina, Cervical muscle co-activation in isometric contractions is enhanced in chronic tension-type headache patients, Cephalalgia, vol.28, issue.7, pp.744-751, 2008.

K. N. Fountas, E. Z. Kapsalaki, L. G. Nikolakakos, H. F. Smisson, K. W. Johnston et al., Anterior cervical discectomy and fusion associated complications, Spine, vol.32, issue.21, pp.2310-2317, 2007.

B. Frechede, N. Bertholon, G. Saillant, F. Lavaste, and W. Skalli, Finite element model of the human neck during omni-directional impacts. Part II: relation between cervical curvature and risk of injury, Computer methods in biomechanics and biomedical engineering, vol.9, issue.6, pp.379-86, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00619212

D. Gagnon, C. Larivière, and P. Loisel, Comparative ability of EMG, optimization, and hybrid modelling approaches to predict trunk muscle forces and lumbar spine loading during dynamic sagittal plane lifting, Clinical Biomechanics, vol.16, issue.5, pp.359-372, 2001.

D. Gagnon, N. Arjmand, A. Plamondon, A. Shirazi-adl, and C. Larivière, An improved multi-joint EMG-assisted optimization approach to estimate joint and muscle forces in a musculoskeletal model of the lumbar spine, Journal of biomechanics, vol.44, issue.8, pp.1521-1530, 2011.

D. Gagnon, A. Plamondon, and C. Larivière, A biomechanical comparison between expert and novice manual materials handlers using a multi-joint EMG-assisted optimization musculoskeletal model of the lumbar spine, Journal of Biomechanics, 2016.

F. Ghezelbash, A. Shirazi-adl, N. Arjmand, Z. El-ouaaid, and A. Plamondon, Subject-specific biomechanics of trunk: musculoskeletal scaling, internal loads and intradiscal pressure estimation, Biomechanics and Modeling in Mechanobiology, vol.15, issue.6, pp.1699-1712, 2016.

V. K. Goel and J. D. Clausen, Prediction of load sharing among spinal components of a C5-C6 motion segment using the finite element approach, Spine, vol.23, issue.6, pp.684-691, 1998.

V. K. Goel, W. Kong, J. S. Han, J. Weinstein, and L. G. Gilbertson, A combined finite element and optimization investigation of lumbar spine mechanics with and without muscles, pdf. Spine, vol.18, issue.11, pp.1531-1541, 1993.

V. K. Goel, B. T. Monroe, L. G. Gilbertson, and P. Brinckmann, Interlaminar shear stresses and laminae separation in a disc: Finite element analysis of the L3-L4 motion segment subjected to axial compressive loads, Spine, vol.20, issue.6, pp.689-698, 1995.

V. K. Goel, A. Faizan, V. Palepu, and S. Bhattacharya, Parameters that effect spine biomechanics following cervical disc replacement, European Spine Journal, vol.21, pp.688-699, 2012.

K. P. Granata and W. S. Marras, An EMG-assisted model of loads on the lumbar spine during asymmetric trunk extensions, Journal of Biomechanics, vol.26, issue.12, p.90093, 1993.

C. Y. Greaves, M. S. Gadala, and T. R. Oxland, A three-dimensional finite element model of the cervical spine with spinal cord: An investigation of three injury mechanisms, Annals of Biomedical Engineering, vol.36, issue.3, pp.396-405, 2008.

M. Grygiel and M. Kaczmarek, Influence of Radiation on Mechanical Properties of Ultra-High Molecular Weight Polyethylene (UHMWPE), vol.4, pp.395-401, 2014.

S. K. Ha, Finite element modeling of multi-level cervical spinal segments (C3-C6) and biomechanical analysis of an elastomer-type prosthetic disc, Medical Engineering & Physics, vol.28, issue.6, pp.534-541, 2006.

M. Hajihosseinali, N. Arjmand, A. Shirazi-adl, F. Farahmand, and M. S. Ghiasi, A novel stability and kinematicsdriven trunk biomechanical model to estimate muscle and spinal forces, Medical Engineering and Physics, vol.36, issue.10, pp.1296-1304, 2014.

J. S. Han, V. K. Goel, J. Y. Ahn, J. Winterbottom, D. Mcgowan et al., Loads in the spinal structures during lifting: development of a three-dimensional comprehensive biomechanical model, European Spine Journal, vol.4, issue.3, pp.153-168, 1995.

J. Hausselle, A. Assi, A. E. Helou, E. Jolivet, H. Pillet et al., Subject-specific musculoskeletal model of the lower limb in a lying and standing position, Computer Methods in Biomechanics and Biomedical Engineering, vol.17, issue.5, pp.480-487, 2012.

B. Helgason, S. Gilchrist, O. Ariza, P. Vogt, W. Enns-bray et al., The influence of the modulus-density relationship and the material mapping method on the simulated mechanical response of the proximal femur in side-ways fall loading configuration, Medical Engineering and Physics, vol.38, issue.7, pp.679-689, 2016.

C. Helleur, S. Gracovetsky, H. Farfan, and E. Wingrowicz, Modelling of the muscular response of the cervical spine, Mathematical Modelling, vol.6, issue.5, pp.90064-90072, 1985.

R. Hodgskinson and J. D. Currey, Young's modulus, density and material properties in cancellous bone over a large density range, Journal of Materials Science: Materials in Medicine, vol.3, issue.5, pp.377-381, 1992.

A. L. Hof, EMG and muscle force: an introduction, Human Movement Science, vol.3, pp.119-153, 1984.

A. L. Hof, The relationship between electromyogram and muscle force, Sportverletz Sportschaden, vol.11, pp.79-86, 1997.

R. Hughes, D. Chaffin, S. A. Lavender, and G. Andersson, Evaluation of muscle force prediction models of the lumbar trunk using surface electromyography, Journal of Orthopaedic Research, vol.12, issue.5, pp.689-698, 1994.

M. Hussain, R. N. Natarajan, A. H. Fayyazi, B. R. Braaksma, G. B. Andersson et al., Screw angulation affects bone-screw stresses and bone graft load sharing in anterior cervical corpectomy fusion with a rigid screwplate construct: a finite element model study, Spine Journal, vol.9, issue.12, pp.1016-1023, 2009.

M. Hussain, A. Nassr, R. N. Natarajan, H. S. An, and G. B. Andersson, Biomechanics of adjacent segments after a multilevel cervical corpectomy using anterior, posterior, and combined anterior-posterior instrumentation techniques: A finite element model study, Spine Journal, vol.13, issue.6, pp.689-696, 2013.

, Institute for Health Metrics and Evaluation (IHME), 2017.

B. Jia, S. Kim, and M. A. Nussbaum, An EMG-based model to estimate lumbar muscle forces and spinal loads during complex, high-effort tasks: Development and application to residential construction using prefabricated walls, International Journal of Industrial Ergonomics, vol.41, issue.5, pp.437-446, 2011.

E. Jolivet, E. Daguet, V. Pomero, D. Bonneau, J. Laredo et al., Volumic patient-specific reconstruction of muscular system based on a reduced dataset of medical images, Computer Methods in Biomechanicss and Biomedical Engineering, vol.11, issue.3, pp.281-290, 2008.

A. C. Jones and R. K. Wilcox, Finite element analysis of the spine: Towards a framework of verification, validation and sensitivity analysis, Medical Engineering and Physics, vol.30, issue.10, pp.1287-1304, 2008.

T. C. Jung, S. H. Woo, K. M. Park, J. W. Jang, D. W. Han et al., Biomechanical behavior of two different cervical total disc replacement designs in relation of concavity of articular surfaces: ProDisc-C vs. Prestige-LP, International Journal of Precision Engineering and Manufacturing, vol.14, issue.5, pp.819-824, 2013.

N. A. Kallemeyn, S. C. Tadepalli, K. H. Shivanna, and N. M. Grosland, An interactive multiblock approach to meshing the spine. Computer methods and programs in biomedicine, vol.95, pp.227-262, 2009.

N. A. Kallemeyn, A. Gandhi, S. Kode, K. H. Shivanna, J. Smucker et al., Validation of a C2-C7 cervical spine finite element model using specimen-specific flexibility data, Medical Engineering & Physics, vol.32, issue.5, pp.482-489, 2010.

P. Kamina, Tête, Cou et Dos. Maloine, Singapour, vol.2, 2015.

I. A. Kapandji, Physiologie articulaire, vol.3, 2002.

G. B. Kasimatis, E. Panagiotopoulos, J. Gliatis, M. Tyllianakis, P. Zouboulis et al., Complications of anterior surgery in cervical spine trauma: An overview, Clinical Neurology and Neurosurgery, vol.111, issue.1, pp.18-27, 2009.

T. S. Keller, Predicting the compressive mechanical behavior of bone, Journal of Biomechanics, vol.27, issue.9, pp.90056-90062, 1994.

A. Kettler, E. Hartwig, M. Schultheiss, L. Claes, and H. Wilke, Mechanically simulated muscle forces strongly stabilize intact and injured upper cervical spine specimens, Journal of Biomechanics, vol.35, issue.3, pp.206-214, 2002.

J. H. Keyak, I. Y. Lee, and H. B. Skinner, Correlations Between Orthogonal Mechanical Properties and Density of Trabecular Bone: Use of Different Densitometric Measures, Journal of Biomedical Materials Research, vol.28, pp.1329-1336, 1994.

D. W. Kim, K. Y. Lee, Y. Jun, S. J. Lee, and C. K. Park, Friction and wear characteristics of UHMWPE against Co-Cr alloy under the wide range of contact pressures in lumbar total disc replacement, International Journal of Precision Engineering and Manufacturing, vol.12, issue.6, pp.1111-1118, 2011.

M. Kleinberger, Application of Finite Element Techniques to the Study of Cervical Spine Mechanics, pp.261-272, 1993.

P. M. Knupp, Achieving Finite Element Mesh Quality via Optimization of the Jacobian Matrix Norm and Associated Quantities, Part II -A Framework for Volume Mesh Optimization and the Condition Number of the Jacobian Matrix, International Journal for Numerical Methods in Engineering, vol.48, pp.1165-1185, 1999.

D. L. Kopperdahl, E. F. Morgan, and T. M. Keaveny, Quantitative computed tomography estimates of the mechanical properties of human vertebral trabecular bone, Journal of Orthopaedic Research, vol.20, pp.801-805, 2002.

M. Korinth, Treatment of Cervical Degenerative Disc Disease -Current Status and Trends, vol.69, pp.113-124, 2008.

S. Kumaresan, N. Yoganandan, F. A. Pintar, L. M. Voo, J. F. Cusick et al., Finite element modeling of cervical laminectomy with graded facetectomy, Journal of spinal disorders, vol.10, issue.1, pp.40-46, 1997.

S. Kumaresan, N. Yoganandan, and F. A. Pintar, Finite element modeling approaches of human cervical spine facet joint capsule, Journal of biomechanics, vol.31, pp.8-14, 1998.

S. Kumaresan, F. A. Yoganandan, and . Pintar, Finite element analysis of the cervical spine: a material property sensitivity study, Clinical Biomechanics, vol.14, issue.1, pp.36-45, 1999.

S. Kumaresan, N. Yoganandan, F. A. Pintar, and D. J. Maiman, Finite element modeling of the cervical spine: Role of intervertebral disc under axial and eccentric loads, Medical Engineering and Physics, vol.21, issue.10, pp.689-700, 1999.

S. Kumaresan, N. Yoganandan, F. A. Pintar, D. J. Maiman, and S. Kuppa, Biomechanical study of pediatric human cervical spine: A finite element approach, Journal of Bomechanical Engineering, vol.122, pp.60-71, 2000.

F. Lavaste, W. Skalli, S. Robin, R. Roy-camille, and C. Mazel, Three-dimensional geometrical and mechanical modelling of the lumbar spine, Journal of Biomechanics, vol.25, issue.10, pp.90071-90079, 1992.

A. Laville, Modélisation géométrique et mécanique du complexe musculo-squelettique du rachis cervical sous facteur de charge, Ecole Nationale Supérieure d'Arts et Métiers, 2011.

A. Laville, S. Laporte, and W. Skalli, Parametric and subject-specific finite element modelling of the lower cervical spine. Influence of geometrical parameters on the motion patterns, Journal of Biomechanics, vol.42, issue.10, pp.1409-1415, 2009.

J. Lecompte, O. Maïsetti, and D. Bonneau, Biomécanique du rachis cervical & whiplash, Sauramps Medical

C. S. Lee, J. Y. Jho, K. Choi, and T. Hwang, Dynamic mechanical behavior of ultra-high molecular weight polyethylene irradiated with gamma rays, Macromolecular Research, vol.12, issue.1, pp.141-143, 2004.

J. Lemaire and F. Lavaste, Patent: Self-adjusting and self-stabilizing intervertebral disc prosthesis, 2008.

F. Li, A. Laville, D. Bonneau, S. Laporte, and W. Skalli, Study on Cervical Muscle Volume by Means of Three-Dimensional Reconstruction, Journal of Magnetic Resonance Imaging, vol.39, issue.6, pp.1411-1416, 2014.

M. A. Liebschner, D. L. Kopperdahl, W. S. Rosenberg, and T. M. Keaveny, Finite Element Modeling of the Human Thoracolumbar Spine, Spine, vol.28, issue.6, pp.559-565, 2003.

C. Y. Lin, H. Kang, J. P. Rouleau, S. J. Hollister, and F. L. Marca, Stress analysis of the interface between cervical vertebrae end plates and the Bryan, Prestige LP, and ProDisc-C cervical disc prostheses: An in vivo image-based finite element study, Spine, vol.34, issue.15, pp.1554-1560, 2009.

C. Y. Lin, S. Y. Chuang, C. J. Chiang, Y. H. Tsuang, and W. P. Chen, Finite Element Analysis of Cervical Spine With Different Constrained Types of Total Disc Replacement, Journal of Mechanics in Medicine and Biology, vol.14, issue.3, pp.1-13, 2014.

C. Y. Liu, C. C. Zygourakis, S. Yoon, T. Kliot, C. Moriates et al., Trends in Utilization and Cost of Cervical Spine Surgery Using the National Inpatient Sample Database, Spine, vol.42, issue.15, pp.906-913, 2001.

R. Lo-martire, K. Gladh, A. Westman, and B. O. Äng, Neck Muscle EMG-Force Relationship and Its Reliability During Isometric Contractions, Sports Medicine -Open, vol.3, issue.1, p.16, 2017.

G. P. Malcolm, Surgical Disorders of the Cervical Spine: Presentation and Management of Common Disorders, Neurosurgery & Psychiatry, vol.73, issue.1, pp.34-41, 2002.

S. Marawar, F. P. Girardi, A. A. Sama, Y. Ma, L. K. Gaber-baylis et al., National trends in anterior cervical fusion procedures, Spine, vol.35, issue.15, pp.1454-1459, 2010.

A. Marquez-lara, S. V. Nandyala, S. J. Fineberg, and K. Singh, Current Trends in Demographics, Practice, and In-Hospital Outcomes in Cervical Spine Surgery, Spine, vol.39, issue.6, pp.476-481, 2014.

S. F. Mattucci and D. S. Cronin, A method to characterize average cervical spine ligament response based on raw data sets for implementation into injury biomechanics models, Journal of the Mechanical Behavior of Biomedical Materials, vol.41, pp.251-260, 2015.

S. F. Mattucci, J. A. Moulton, N. Chandrashekar, and D. S. Cronin, Strain rate dependent properties of younger human cervical spine ligaments, Journal of the Mechanical Behavior of Biomedical Materials, vol.10, pp.216-226, 2012.

N. Maurel, F. Lavaste, and W. Skalli, A three-dimensional parameterized finite element model of the lower cervical spine, study of the influence of the posterior articular facets, Journal of Biomechanics, vol.30, issue.9, pp.921-931, 1997.

P. Mcclure, The degenerative cervical spine: pathogenesis and rehabilitation concepts, Journal of hand therapy : official journal of the American Society of Hand Therapists, vol.13, issue.2, pp.80039-80042, 2000.

S. M. Mcgill, A myoelectrically based dynamic three-dimensional model to predict loads on lumbar spine tissues during lateral bending, Journal of Biomechanics, vol.25, pp.395-414, 1992.

M. L. Mcmulkin, J. C. Woldstad, and R. E. Hughes, Optimization model estimates of trunk muscle forces do not correlate with EMG activity of females as well as males, Journal of Applied Biomechanics, vol.19, pp.131-138, 2003.

Z. Mo, Y. Zhao, L. Wang, Y. Sun, M. Zhang et al., Biomechanical effects of cervical arthroplasty with U-shaped disc implant on segmental range of motion and loading of surrounding soft tissue, European Spine Journal, vol.23, issue.3, pp.613-621, 2014.

Y. Mohammadi, N. Arjmand, and A. Shirazi-adl, Comparison of trunk muscle forces, spinal loads and stability estimated by one stability-and three EMG-assisted optimization approaches, Medical Engineering & Physics, vol.37, issue.8, pp.792-800, 2015.

S. P. Moroney, A. B. Schultz, and J. A. Miller, Analysis and measurement of neck loads, Journal of Orthopaedic Research, vol.6, issue.5, pp.713-720, 1988.

S. P. Moroney, A. B. Schultz, J. A. Miller, and G. B. Andersson, Load-displacement properties of lower cervical spine motion segments, Journal of Biomechanics, vol.21, issue.9, pp.90285-90285, 1988.

M. Moshfeghi, S. Ranganath, and K. Nawyn, Three-Dimensional Elastic Matching of Volumes, IEEE Transactions on Image Processing, vol.3, issue.2, pp.128-138, 1994.

T. Motosuneya, T. Asazuma, T. Tsuji, H. Watanabe, Y. Nakayama et al., Postoperative change of the cross-sectional area of back musculature after 5 surgical procedures as assessed by magnetic resonance imaging, Journal of Spinal Disorders and Techniques, vol.19, issue.5, pp.318-322, 2006.

R. Mousavi-khatir, S. Talebian, N. Toosizadeh, G. R. Olyaei, and N. Maroufi, The effect of static neck flexion on mechanical and neuromuscular behaviors of the cervical spine, Journal of Biomechanics, vol.72, pp.152-158, 2018.

S. Naserkhaki, N. Arjmand, A. Shirazi-adl, F. Farahmand, and M. El-rich, Effects of eight different ligament property datasets on biomechanics of a lumbar L4-L5 finite element model, Journal of Biomechanics, vol.70, pp.33-42, 2017.

R. Nasser, S. Yadla, M. G. Maltenfort, J. S. Harrop, D. G. Anderson et al., Complications in spine surgery, J Neurosurg Spine, vol.13, issue.2, pp.144-157, 2010.

R. N. Natarajan, B. H. Chen, H. S. An, and G. B. Andersson, Anterior cervical fusion: a finite element model study on motion segment stability including the effect of osteoporosis, Spine, vol.25, issue.8, pp.362-2436, 2000.

A. Nérot, J. Choisne, C. Amabile, C. Travert, H. Pillet et al., A 3D reconstruction method of the body envelope from biplanar X-rays: Evaluation of its accuracy and reliability, Journal of Biomechanics, vol.48, issue.16, pp.4322-4326, 2015.

H. Ng and E. Teo, Nonlinear finite-element analysis of the lower cervical spine (C4-C6) under axial loading, Journal of Spinal Disorders & Techniques, vol.14, issue.3, pp.201-210, 2001.

H. Ng, E. Teo, K. Lee, and T. Qiu, Finite element analysis of cervical spinal instability under physiologic loading, Journal of spinal disorders & techniques, vol.16, issue.1, pp.55-65, 2003.

R. W. Nightingale, V. C. Chancey, D. Ottaviano, J. F. Luck, L. Tran et al., Flexion and extension structural properties and strengths for male cervical spine segments, Journal of Biomechanics, vol.40, issue.3, pp.535-542, 2007.

J. Noailly and D. Lacroix, Finite element modelling of the spine, Biomaterials for Spinal Surgery, pp.144-232, 2012.

M. A. Nussbaum and D. B. Chaffin, Lumbar muscle force estimation using a subject-invariant 5-parameter EMGbased model, Journal of Biomechanics, vol.31, issue.7, pp.667-672, 1998.

T. Okamoto, M. Neo, S. Fujibayashi, H. Ito, M. Takemoto et al., Mechanical implant failure in posterior cervical spine fusion, European Spine Journal, vol.21, issue.2, pp.328-334, 2012.

L. Ombregt, Applied anatomy of the cervical spine, A System of Orthopaedic Medicine, pp.1-12, 2013.

M. M. Panjabi, The Stabilizing System of the Spine. Part I. Function, Dysfunction, Adaptation, and Enhancement, Journal of Spinal Disorders & Techniques, vol.5, issue.4, pp.383-389, 1992.

M. M. Panjabi, The stabilizing system of the spine. Part II. Neutral zone and instability hypothesis, Journal of spinal disorders, vol.5, issue.4, pp.390-396, 1992.

M. M. Panjabi, D. J. Summers, R. R. Pelker, T. Videman, G. E. Friedlaender et al., Threedimensional load-displacement curves due to forces on the cervical spine, Journal of Orthopaedic Research, vol.4, issue.2, pp.152-161, 1986.

M. M. Panjabi, K. Abumi, J. Duranceau, and T. Oxland, Spinal stability and intersegmental muscle forces. A biomechanical model, Spine, vol.14, issue.2, pp.194-200, 1989.

M. M. Panjabi, J. Cholewicki, K. Nibu, L. B. Babatl, and J. Dvorak, Critical load of the human cervical spine: an in vitro experimental study, Clinical Biomechanics, vol.13, issue.1, pp.57-57, 1998.

M. M. Panjabi, J. J. Crisco, A. Vasavada, T. Oda, J. Cholewicki et al., Mechanical properties of the human cervical spine as shown by three-dimensional load-displacement curves, Spine, vol.26, issue.24, pp.2692-2700, 2001.

M. M. Panjabi, T. Miura, P. A. Cripton, J. L. Wang, A. S. Nain et al., Development of a system for in vitro neck muscle force replication in whole cervical spine experiments, Spine, vol.26, issue.20, pp.2214-2223, 2001.

M. B. Panzer and D. S. Cronin, C4-C5 segment finite element model development, validation, and load-sharing investigation, Journal of Biomechanics, vol.42, pp.480-490, 2009.

M. B. Panzer, J. B. Fice, and D. S. Cronin, Cervical spine response in frontal crash, Medical Engineering and Physics, vol.33, issue.9, pp.1147-1159, 2011.

P. G. Patil, D. Turner, and R. Pietrobon, National trends in surgical procedures for degenerative cervical spine disease, vol.57, pp.753-758, 1990.

A. Del-palomar, B. Calvo, and M. Doblaré, An accurate finite element model of the cervical spine under quasi-static loading, Journal of biomechanics, vol.41, issue.3, pp.523-554, 2008.

W. Platzer, Atlas van de anatomie -Bewegingsapparaat, vol.9789006951981, 2012.

V. Pomero, F. Lavaste, G. Imbert, and W. Skalli, A proprioception based regulation model to estimate the trunk muscle forces, Computer Methods in Biomechanics and Biomedical Engineering, vol.7, issue.6, pp.331-338, 2004.

H. M. Reynolds, C. E. Clauser, J. Mcconville, R. Chandler, and J. W. Young, Mass Distribution Properties of the Male Cadaver, pp.1132-1150, 1975.

J. Y. Rho, M. C. Hobatho, and R. B. Ashman, Relations of mechanical properties to density and CT numbers in human bone, Medical Engineering and Physics, vol.17, issue.5, p.97314, 1995.

M. Richter, H. Wilke, P. Kluger, L. Claes, and W. Puhl, European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society, vol.9, pp.104-112, 2000.

M. Rousseau, S. Laporte, E. Chavary-bernier, J. Lazennec, and W. Skalli, Reproducibility of measuring the shape and three-dimensional position of cervical vertebrae in upright position using the EOS stereoradiography system, Spine, vol.32, issue.23, pp.2569-2572, 2007.

M. Rousseau, X. Bonnet, and W. Skalli, Influence of the geometry of a ball-and-socket intervertebral prosthesis at the cervical spine: a finite element study. Spine, vol.33, pp.10-14, 2008.

M. Rousseau, H. Pascal-moussellard, Y. Catonné, and J. Lazennec, Anatomie et biomécanique du rachis cervical, Revue du Rhumatisme, vol.75, issue.8, pp.707-711, 2008.

V. Saikko, Effect of contact pressure on wear and friction of ultra-high molecular weight polyethylene in multidirectional sliding, Proceedings of the Institution of Mechanical Engineers, vol.220, issue.7, pp.723-731, 2006.

T. Saito, T. Yamamuro, J. Shikita, M. Oka, and S. Tsutsumi, Analysis and prevention of spinal column deformity following cervical laminectomy. I. Pathogenetic analysis of postlaminectomy deformities, Spine, vol.16, issue.5, pp.494-502, 1991.

E. Sapin-de-brosses, K. Briot, S. Kolta, W. Skalli, C. Roux et al., Subject-specific mechanical properties of vertebral cancellous bone assessed using a low-dose X-ray device, Irbm, vol.31, issue.3, pp.148-153, 2010.

A. Schultz, K. Haderspeck, D. Warwick, and D. Portillo, Use of lumbar trunk muscles in isometric performance of mechanically complex standing tasks, Journal of Orthopaedic Research, vol.1, issue.1, pp.77-91, 1983.

A. Seth, M. Sherman, J. A. Reinbolt, and S. L. Delp, OpenSim: a musculoskeletal modeling and simulation framework for in silico investigations and exchange, Procedia IUTAM, vol.2, pp.212-232, 2011.

M. Sharma, N. A. Langrana, and J. Rodriguez, Role of ligaments and facets in lumbar spinal stability, Spine, vol.20, issue.8, pp.887-900, 1995.

J. H. Shim, Neck Pain Causes, 2016.

A. Shirazi-adl, S. C. Shrivastava, and A. M. Ahmed, Stress Analysis of the Lumbar Disc-Body Unit in Compression A Three-Dimensional Nonlinear Finite Element Study, Spine, vol.9, issue.2, pp.120-134, 1984.

I. A. Stokes and M. Gardner-morse, Lumbar spine maximum efforts and muscle recruitment patterns predicted by a model with multijoint muscles and joints with stiffness, J Biomech, vol.28, issue.2, pp.173-186, 1995.

I. A. Stokes and M. Gardner-morse, Lumbar spinal muscle activation synergies predicted by multi-criteria cost function, Journal of Biomechanics, vol.34, pp.733-740, 2001.

E. E. Swartz, R. T. Floyd, and M. Cendoma, Cervical spine functional anatomy and the biomechanics of injury due to compressive loading, Journal of Athletic Training, vol.40, issue.3, pp.155-161, 2005.

A. Tasiou, T. Giannis, A. G. Brotis, I. Siasios, I. Georgiadis et al., Anterior cervical spine surgery-associated complications in a retrospective case-control study, Journal of Spine Surgery, vol.3, issue.3, pp.444-459, 2017.

E. Teo and H. Ng, Evaluation of the role of ligaments, facets and disc nucleus in lower cervical spine under compression and sagittal moments using finite element method, Medical Engineering and Physics, vol.23, pp.155-164, 2001.

A. G. Todd, Cervical spine: Degenerative conditions, Current Reviews in Musculoskeletal Medicine, vol.4, issue.4, pp.168-174, 2011.

N. Toosizadeh and M. Haghpanahi, Generating a finite element model of the cervical spine: Estimating muscle forces and internal loads, Scientia Iranica, vol.18, issue.6, pp.1237-1245, 2011.

C. Travert, Estimation du Risque de Fracture Ostéoporotique du Rachis Thoraco-Lombaire par un Modèle en Élément Finis Personnalisé, Ecole Nationale Supérieure d'Arts et Métiers, 2013.

C. Travert, E. Jolivet, E. Sapin-de-brosses, D. Mitton, and W. Skalli, Sensitivity of patient-specific vertebral finite element model from low dose imaging to material properties and loading conditions, Medical and Biological Engineering and Computing, vol.49, issue.12, pp.1355-1361, 2011.

F. Trochu, A Contouring Program Based on Dual Kriging Interpolation, Engineering with Computers, vol.9, pp.160-177, 1993.

K. Ueno and Y. K. Liu, A three-dimensional nonlinear finite element model of lumbar intervertebral joint in torsion, Journal of biomechanical engineering, vol.109, issue.3, pp.200-209, 1987.

, Reporting of Computational Modeling Studies in Medical Device Submissions -Draft Guidance for Industry and Food and Drug Administration Staff, US Food and Drug Administration -Center for Devices and Radiological Health, 2016.

M. Van-den-abbeele, F. Li, V. Pomero, D. Bonneau, B. Sandoz et al., A subject-specific biomechanical control model for the prediction of cervical spine muscle forces, Clinical Biomechanics, vol.51, pp.58-66, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02184713

C. Vergari, P. Rouch, G. Dubois, D. Bonneau, J. Dubousset et al., Non-invasive biomechanical characterization of intervertebral discs by shear wave ultrasound elastography: a feasibility study, European Radiology, vol.24, issue.12, pp.3210-3216, 2014.

C. Vergari, P. Rouch, G. Dubois, D. Bonneau, J. Dubousset et al., Intervertebral disc characterization by shear wave elastography : an in-vitro preliminary study, Journal of Engineering in Medicine, vol.228, issue.6, pp.607-615, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01010870

C. Vergari, G. Dubois, R. Vialle, J. Gennisson, M. Tanter et al., Lumbar annulus fibrosus biomechanical characterization in healthy children by ultrasound shear wave elastography, European Radiology, vol.26, issue.4, pp.1213-1217, 2015.

M. Viceconti, S. Olsen, L. P. Nolte, and K. Burton, Extracting clinically relevant data from finite element simulations, Clinical Biomechanics, vol.20, issue.5, pp.451-454, 2005.

L. M. Voo, S. Kumaresan, N. Yoganandan, F. A. Pintar, and J. F. Cusick, Finite element analysis of cervical facetectomy, Spine, vol.22, issue.9, pp.964-969, 1997.

L. M. Voo, F. A. Pintar, N. Yoganandan, and Y. K. Liu, Static and dynamic bending responses of the human cervical spine, Journal of Biomechanical Engineering, vol.120, pp.693-696, 1998.

K. Wang, H. Wang, Z. Deng, Z. Li, H. Zhan et al., Cervical traction therapy with and without neck support: A finite element analysis. Musculoskeletal Science and Practice, vol.28, pp.1-9, 2017.

M. C. Wang, L. Chan, D. J. Maiman, W. Kreuter, and R. A. Deyo, Complications and mortality associated with cervical spine surgery for degenerative disease in the United States, Spine, vol.32, issue.3, pp.342-347, 2007.

M. C. Wang, W. Kreuter, C. E. Wolfla, D. J. Maiman, and R. A. Deyo, Trends and variations in cervical spine surgery in the United States: Medicare beneficiaries, Spine, vol.34, issue.9, pp.955-61, 1992.

N. Wen, F. Lavaste, J. J. Santin, and J. P. Lassau, Three-dimensional biomechanical properties of the human cervical spine in vitro. I. Analysis of normal motion, European Spine Journal, vol.2, pp.2-11, 1993.

J. A. Wheeldon, F. A. Pintar, S. Knowles, and N. Yoganandan, Experimental flexion/extension data corridors for validation of finite element models of the young, normal cervical spine, Journal of Biomechanics, vol.39, issue.2, pp.375-380, 2006.

J. A. Wheeldon, B. D. Stemper, N. Yoganandan, and F. A. Pintar, Validation of a finite element model of the young normal lower cervical spine, Annals of Biomedical Engineering, vol.36, issue.9, pp.1458-1469, 2008.

H. Wilke, S. Wolf, L. E. Claes, M. Arand, and A. Wiesend, Stability Increase of the Lumbar Spine With Different Muscle Groups: A Biomechanical In Vitro Study, Spine, vol.20, issue.2, pp.192-197, 1995.

, World Health Organisation. Health statistics and information systems -Metrics: Disability-Adjusted Life Year (DALY), 2016.

W. Wu, C. Chen, J. Ning, P. Sun, J. Zhang et al., A Novel Anterior Transpedicular Screw Artificial Vertebral Body System for Lower Cervical Spine Fixation: A Finite Element Study, Journal of Biomechanical Engineering, vol.139, issue.6, p.61003, 2017.

H. Yamada, Strength of Biological Materials, 1970.

H. Yang, M. G. Jekir, M. W. Davis, and T. M. Keaveny, Effective modulus of the human intervertebral disc and its effect on vertebral bone stress, Journal of Biomechanics, vol.49, issue.7, pp.1134-1140, 2016.

N. Yoganandan, S. Kumaresan, V. Liming, F. A. Pintar, and S. J. Larson, Finite element modeling of the C4-C6 cervical spine unit, Medical Engineering and Physics, vol.18, issue.7, pp.13-19, 1996.

N. Yoganandan, S. Kumaresan, L. Voo, and F. A. Pintar, Finite element model of the human lower cervical spine: parametric analysis of the C4-C6 unit, Journal of biomechanical engineering, vol.119, issue.1, pp.87-92, 1997.

N. Yoganandan, S. Kumaresan, and F. A. Pintar, Geometric and Mechanical Properties of Human Cervical Spine Ligaments, Journal of Biomechanical Engineering, vol.122, pp.623-629, 2000.

N. Yoganandan, S. Kumaresan, and F. A. Pintar, Biomechanics of the cervical spine Part 2: Cervical spine soft tissue responses and biomechanical modeling, Clinical Biomechanics, vol.16, pp.1-27, 2001.

N. Yoganandan, F. A. Pintar, J. Zhang, and J. L. Baisden, Physical properties of the human head: Mass, center of gravity and moment of inertia, Journal of Biomechanics, vol.42, issue.9, pp.1177-1192, 2009.

C. Yu, P. Liu, D. Huang, Y. Jiang, H. Feng et al., A new cervical artificial disc prosthesis based on physiological curvature of end plate: a finite element analysis, Spine Journal, vol.16, issue.11, pp.1384-1391, 2016.

W. Yuan, H. Zhang, X. Zhou, W. Wu, and Y. Zhu, The Influence of Artificial Cervical Disc Prosthesis Height on the Cervical Biomechanics: A Finite Element Study, vol.113, pp.490-498, 2018.

Q. Zhang, E. Teo, and H. Ng, Development and Validation of A C0-C7 FE Complex for Biomechanical Study, Journal of Biomechanical Engineering, vol.127, issue.5, p.729, 2005.

Q. Zhang, E. Teo, H. Ng, and V. Lee, Finite element analysis of moment-rotation relationships for human cervical spine, Journal of Biomechanics, vol.39, issue.1, pp.189-193, 2006.

B. H. Zhou, R. V. Baratta, M. Solomonow, L. J. Olivier, G. T. Nguyen et al., Evaluation of isometric antagonist coactivation strategies of electrically stimulated muscles, IEEE Transactions on Biomedical Engineering, vol.43, issue.2, pp.150-160, 1996.

?. S. Laporte, M. Van-den-abbeele, P. Y. Rohan, C. Adam, P. Rouch et al., Chapter 22: Spine, Pages 471-495, Biomechanics of Living Organs, 2017.

?. M. Scientific-articles, J. Van-den-abbeele, L. Valiadis, P. Lima, P. Khalife et al., Contribution to FE modeling for intraoperative pedicle screw strength prediction, Computer Methods In Biomechanics and Biomedical Engineering, vol.21, pp.13-21, 2018.

?. M. Van-den-abbeele, F. Li, V. Pomero, D. Bonneau, B. Sandoz et al., A subject-specific biomechanical control model for the prediction of cervical spine muscle forces, Clinical Biomechanics, vol.51, pp.58-66, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02184713

?. A. Alzakri, C. Vergari, M. Van-den-abbeele, O. Gille, I. Obeid et al., Global Sagittal Alignment and Proximal Junctional Kyphosis in Adolescent Idiopathic Scoliosis
URL : https://hal.archives-ouvertes.fr/hal-02117369

P. Coloma, S. Laporte, B. Sandoz, D. Bonneau, C. Barrey et al., A Framework for the Validation of Cervical Spine FE Modeling, Scientific Articles In Preparation ? M. Van den Abbeele

?. M. Van-den-abbeele, E. Ferrero, C. Maillot, B. Moal, P. Sudres et al., A subject-specific proprioceptive control model for spine disorder analysis

?. M. Van-den-abbeele, J. Valiadis, L. Lima, P. Khalife, P. Rouch et al., Contribution to FE modeling for pedicle screw insertion, 22nd Congress of the European Society of Biomechanics, 2016.

?. M. Van-den-abbeele, P. Coloma, S. Laporte, B. Sandoz, D. Bonneau et al., Patient-specific FE modeling of the inferior cervical spine, CMBBE, 2018.

?. M. Van-den-abbeele, P. Coloma, S. Laporte, B. Sandoz, D. Bonneau et al., A subject-specific proprioceptive control model for spine disorder analysis. The 2nd Workshop on Spine Loading and Deformation, World Congress of Biomechanics, 2017.

?. M. Van-den-abbeele, F. Li, V. Pomero, B. Sandoz, S. Laporte et al., Subject-specific prediction of cervical spine muscle forces, 23rd Congress of the European Society of Biomechanics, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02184713

?. M. Van-den-abbeele, F. Li, V. Pomero, B. Sandoz, S. Laporte et al., A subject-specific biomechanical control model for the prediction of cervical spine muscle forces, 26th Congress of the International Society of Biomechanics, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02184713

?. M. Van-den-abbeele, P. Coloma, S. Laporte, B. Sandoz, D. Bonneau et al., The subject-specific FE modeling of the inferior cervical spine, 8th World Congress, 2018.

?. C. Muth-seng, D. Brauge, N. Soriau, B. Sandoz, M. Van-den-abbeele et al., Experimental analysis of the lower cervical spine in hyperflexion, 8th World Congress, 2018.

?. M. Van-den-abbeele, P. Coloma, B. Sandoz, D. Bonneau, S. Laporte et al., A Generic Morphorealistic Finite Element Model of the Lower Cervical Spine -A Computational Modeling and Simulation Report, NAFEMS France Conference, 2018.