Выходит 6 номеров в год
ISSN Печать: 0278-940X
ISSN Онлайн: 1943-619X
Indexed in
Finite Element Methods in Spine Biomechanics Research
Краткое описание
The finite element method has been used in spine biomechanics research for nearly a quarter of a century. Recent developments have made it possible to simulate a variety of clinically relevant situations in an increasingly realistic manner, elevating the finite element method into a fully complementary partnership with experimental approaches for the investigation of clinical problems in the spine. These new developments are presented in a historical context to evaluate their potential impact on future spine biomechanics research.
-
Janik Tadeusz J, Harrison Donald D., Cailliet Rene, Troyanovich Stephan J., Harrison Deed E., Can the sagittal lumbar curvature be closely approximated by an ellipse?, Journal of Orthopaedic Research, 16, 6, 1998. Crossref
-
Clausen John D., Goel Vijay K., Traynelis Vincent C., Scifert Jeffrey, 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, 15, 3, 1997. Crossref
-
Lee Kim K, Teo E Chon, Material Sensitivity Study on Lumbar Motion Segment (L2-L3) Under Sagittal Plane Loadings Using Probabilistic Method, Journal of Spinal Disorders & Techniques, 18, 2, 2005. Crossref
-
Sarver Joseph J., Elliott Dawn M., Mechanical differences between lumbar and tail discs in the mouse, Journal of Orthopaedic Research, 23, 1, 2005. Crossref
-
Yoganandan Narayan , Kumaresan Srirangam , Pintar Frank A. , Geometric and Mechanical Properties of Human Cervical Spine Ligaments , Journal of Biomechanical Engineering, 122, 6, 2000. Crossref
-
Little Jesse S., Khalsa Partap S., Material Properties of the Human Lumbar Facet Joint Capsule, Journal of Biomechanical Engineering, 127, 1, 2005. Crossref
-
Wang Shaobai, Park Won Man, Gadikota Hemanth R., Miao Jun, Kim Yoon Hyuk, Wood Kirkham B., Li Guoan, A combined numerical and experimental technique for estimation of the forces and moments in the lumbar intervertebral disc, Computer Methods in Biomechanics and Biomedical Engineering, 16, 12, 2013. Crossref
-
Harrison Deed E., Harrison Donald D., Troyanovich Stephan J., Harmon Stacy, A normal spinal position: It's time to accept the evidence, Journal of Manipulative and Physiological Therapeutics, 23, 9, 2000. Crossref
-
Kunkel Maria E., Schmidt Hendrik, Wilke Hans-Joachim, Prediction equations for human thoracic and lumbar vertebral morphometry, Journal of Anatomy, 216, 3, 2010. Crossref
-
Kong W. Z., Goel V. K., Gilbertson L. G., Prediction of Biomechanical Parameters in the Lumbar Spine During Static Sagittal Plane Lifting, Journal of Biomechanical Engineering, 120, 2, 1998. Crossref
-
Wang Wenhai, Baran George R., Betz Randal R., Samdani Amer F., Pahys Joshua M., Cahill Patrick J., The Use of Finite Element Models to Assist Understanding and Treatment For Scoliosis: A Review Paper, Spine Deformity, 2, 1, 2014. Crossref
-
Grosland Nicole M., Shivanna Kiran H., Magnotta Vincent A., Kallemeyn Nicole A., DeVries Nicole A., Tadepalli Srinivas C., Lisle Curtis, IA-FEMesh: An open-source, interactive, multiblock approach to anatomic finite element model development, Computer Methods and Programs in Biomedicine, 94, 1, 2009. Crossref
-
Yin Luzhong, Elliott Dawn M., A homogenization model of the annulus fibrosus, Journal of Biomechanics, 38, 8, 2005. Crossref
-
Prendergast PJ, Finite element models in tissue mechanics and orthopaedic implant design, Clinical Biomechanics, 12, 6, 1997. Crossref
-
Ng Hong-Wan, Teo Ee-Chon, Nonlinear Finite-Element Analysis of the Lower Cervical Spine (C4–C6) Under Axial Loading, Journal of Spinal Disorders, 14, 3, 2001. Crossref
-
Halloran Jason P., Erdemir Ahmet, Adaptive Surrogate Modeling for Expedited Estimation of Nonlinear Tissue Properties Through Inverse Finite Element Analysis, Annals of Biomedical Engineering, 39, 9, 2011. Crossref
-
Kallemeyn Nicole A., Tadepalli Srinivas C., Shivanna Kiran H., Grosland Nicole M., An interactive multiblock approach to meshing the spine, Computer Methods and Programs in Biomedicine, 95, 3, 2009. Crossref
-
Zhang Qing Hang, Teo Ee Chon, Finite element application in implant research for treatment of lumbar degenerative disc disease, Medical Engineering & Physics, 30, 10, 2008. Crossref
-
Wang J.L., Parnianpour M., Shirazi-Adl A., Engin A.E., Li S., Patwardhan A., Development and validation of a viscoelastic finite element model of an L2/L3 motion segment, Theoretical and Applied Fracture Mechanics, 28, 1, 1997. Crossref
-
Teo E.C., Ng H.W., First cervical vertebra (atlas) fracture mechanism studies using finite element method, Journal of Biomechanics, 34, 1, 2001. Crossref
-
EBERLEIN∗ ROBERT, HOLZAPFEL† GERHARD A., SCHULZE-BAUER‡ CHRISTIAN A. J., An Anisotropic Model for Annulus Tissue and Enhanced Finite Element Analyses of Intact Lumbar Disc Bodies, Computer Methods in Biomechanics and Biomedical Engineering, 4, 3, 2001. Crossref
-
Teo E.C, Ng H.W, 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 & Physics, 23, 3, 2001. Crossref
-
Ng Hong-Wan, Teo Ee-Chon, Zhang QingHang, Influence of Laminotomies and Laminectomies on Cervical Spine Biomechanics under Combined Flexion-Extension, Journal of Applied Biomechanics, 20, 3, 2004. Crossref
-
Berthonnaud Eric, Papin Patrice, Deceuninck Julie, Hilmi Radwan, Bernard Jean Claude, Dimnet Joannes, The use of a photogrammetric method for the three-dimensional evaluation of spinal correction in scoliosis, International Orthopaedics, 40, 6, 2016. Crossref
-
NATARAJAN RAGHU N., WILLIAMS JAMIE R., ANDERSSON GUNNAR B.J., MODELING CHANGES IN INTERVERTEBRAL DISC MECHANICS WITH DEGENERATION, The Journal of Bone and Joint Surgery-American Volume, 88, 2006. Crossref
-
Shahraki Narjes Momeni, Fatemi Ali, Agarwal Anand, Goel Vijay K., Prediction of clinically relevant initiation and progression of tears within annulus fibrosus, Journal of Orthopaedic Research, 35, 1, 2017. Crossref
-
Keller Tony S., Harrison Deed E., Colloca Christopher J., Harrison Donald D., Janik Tadeusz J., Prediction of Osteoporotic Spinal Deformity, Spine, 28, 5, 2003. Crossref
-
Goel Vijay K., Clausen John D., Prediction of Load Sharing Among Spinal Components of a C5-C6 Motion Segment Using the Finite Element Approach, Spine, 23, 6, 1998. Crossref
-
Dooris Andrew P., Goel Vijay K., Grosland Nicole M., Gilbertson Lars G., Wilder David G., Load-Sharing Between Anterior and Posterior Elements in a Lumbar Motion Segment Implanted With an Artificial Disc, Spine, 26, 6, 2001. Crossref
-
Hong-Wan Ng, Ee-Chon Teo, Qing-Hang Zhang, Prediction of inter-segment stability and osteophyte formation on the multi-segment C2-C7 after unilateral and bilateral facetectomy, Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 218, 3, 2004. Crossref
-
Charriere E., Sirey F., Zysset P.K., A Finite Element Model of the L5-S1 Functional Spinal Unit: Development and Comparison with Biomechanical Tests In Vitro, Computer Methods in Biomechanics and Biomedical Engineering, 6, 4, 2003. Crossref
-
Bozkurt Celal, Şenköylü Alpaslan, Aktaş Erdem, Sarıkaya Baran, Sipahioğlu Serkan, Gürbüz Rıza, Timuçin Muharrem, Biomechanical Evaluation of a Novel Apatite-Wollastonite Ceramic Cage Design for Lumbar Interbody Fusion: A Finite Element Model Study, BioMed Research International, 2018, 2018. Crossref
-
Galbusera Fabio, Niemeyer Frank, Mathematical and Finite Element Modeling, in Biomechanics of the Spine, 2018. Crossref
-
Kosmopoulos Victor, Keller Tony S., Finite Element Modeling of Trabecular Bone Damage, Computer Methods in Biomechanics and Biomedical Engineering, 6, 3, 2003. Crossref
-
Wagnac E., Arnoux P.J., Aubin C.E., Determination of the hyperelastic material properties of the intervertebral disk under dynamic compressive loads, Computer Methods in Biomechanics and Biomedical Engineering, 12, sup1, 2009. Crossref
-
El-Rich M., Wagnac E., Arnoux P.J., Aubin C.E., Detailed modelling of the lumbar spine for trauma applications: preliminary results, Computer Methods in Biomechanics and Biomedical Engineering, 11, sup001, 2008. Crossref
-
Kallemeyn Nicole A., Shivanna Kiran H., DeVries Nicole A., Kode Swathi, Gandhi Anup A., Fredericks Douglas C., Smucker Joseph D., Grosland Nicole M., Advancements in Spine FE Mesh Development: Toward Patient-Specific Models, in Patient-Specific Modeling in Tomorrow's Medicine, 09, 2011. Crossref
-
Elliott Dawn M., Yerramalli Chandra S., Auerbach Joshua D., Biomechanics of the Intervertebral Disc, in Interventional Spine, 2008. Crossref
-
Stadelmann Marc A., Stocker Roland, Maquer Ghislain, Hoppe Sven, Vermathen Peter, Alkalay Ron N., Zysset Philippe K., Finite element models can reproduce the effect of nucleotomy on the multi-axial compliance of human intervertebral discs, Computer Methods in Biomechanics and Biomedical Engineering, 23, 13, 2020. Crossref
-
Natarajan Raghu N., Williams Jamie R., Andersson Gunnar B.J., Modeling Changes in Intervertebral Disc Mechanics with Degeneration, Journal of Bone and Joint Surgery, 88, suppl_2, 2006. Crossref
-
Galbusera Fabio, Cina Andrea, Panico Matteo, Albano Domenico, Messina Carmelo, Image-based biomechanical models of the musculoskeletal system, European Radiology Experimental, 4, 1, 2020. Crossref
-
Anderson Fernando de Souza, André Luis do Valle De Zoppa, Finite element method in equine orthopedics, Archives of Clinical and Experimental Orthopaedics, 5, 1, 2021. Crossref
-
Qin Da-Ping, Zhang Xiao-Gang, Son Ming, Zhang Hua, Cao Lin-Zhong, Zhao Wen-Tao, Wang Zhi-Peng, Xu Shi-Wei, Effect of different attributes of the mimic human lumbar spine biomechanics material structure change by finite element analysis, SN Applied Sciences, 3, 12, 2021. Crossref
-
Sun Pei-Dong, Zhang Xiao-Xiang, Zhang Yuan-Wei, Wang Zhe, Wu Xiao-Yu, Wu Yan-Chao, Yu Xing-Liang, Gan Hao-Ran, Liu Xiang-Dong, Ai Zi-Zheng, He Jian-Ying, Dong Xie-Ping, Stress analysis of the thoracolumbar junction in the process of backward fall: An experimental study and finite element analysis, Experimental and Therapeutic Medicine, 22, 4, 2021. Crossref