Volume- 3
Issue- 5
Year- 2015
Article Tools: Print the Abstract | Indexing metadata | How to cite item | Email this article | Post a Comment
Sabine Bauer, , Dietrich Paulus, Eva Keller
[1] G. B. J. Andersson, “Epidemiological features of chronic low-back pain.” Lancet, vol. 354, 1999, pp. 581-585.
[2] A. Rohlmann, T. Zander, M. Rao, G.Bergmann, “Applying a follower load delivers realistic results for simulating standing.” Journal of Biomechanics, vol. 42, no. 10, 2009, pp. 1520-1526, doi:10.1016/j.jbiomech.2009.03.048.
[3] A. Rohlmann, L. Bauer, T. Zander, G. Bergmann, H.-J. Wilke , “Determination of trunk muscle forces for flexion and extension by using a validated finite element model of the lumbar spine and measured in vivo data.” Journal of Biomechanics, vol. 36, no. 6, 2006, pp. 981–989.
[4] A. Rohlmann , T. Zander, M. Rao, G. Bergmann, “Realistic loading conditions for upper body bending.” Journal of Biomechanics, vol. 42, no. 7, 2009, p. 884–890.
[5] T. Zander, A. Rohlmann, J. Calisse, G. Bergmann, “Estimation of muscle force in the lumbar spine during upper-body inclination.” Clinical Biomechanics, 16 Supplement, No. 1, 2001, S73-S8.
[6] H. Schmidt, F. Heuer, U. Simon, A. Kettler, A. Rohlmann, L. Claes, H.-J. Wilke, ”Application of a new calibration method for a three-dimensional finite element model of a human lumbar annulus fibrosus.” Clinical Biomechanics, vol. 21, no. 4 337–344.
[7] H.-J. Wilke, et al., “Shear properties of the lumbar intervertebral disc after spondylolysis.” European Spine Journal, 20, 2011.
[8] J. R. Williams, R. N. Natarajan, G. B. J. Andersson, “Inclusion of regional poroelastic material properties better predicts biomechanical behavior of lumbar discs subjected to dynamic loading.” Journal of Biomechanics, vol. 40, no. 9, 2007, pp. 1981-1987.
[9] F. Heuer, H. Schmidt, Z. Klezl, L. Claes, H.-J. Wilke, “Stepwise reduction of functional spinal structures increase range of motion and change lordosis angle.” Journal of Biomechanics vol. 40, 2007, pp. 271–280.
[10] V. Goel, K. Kong, J. S. Han, J. N. Weinstein, L. G. Gilbertson, “A combined Finite Element and Optimization Investigation of lumbar spine mechanics with and without muscles.” Spine , vol. 18, no 11, 1993, pp. 1531-1541.
[11] F. Galbusera, H. Schmidt, C. Neidlinger-Wilke, H.-J. Wilke, “Computermethods in Biomechanics and Biomedical Engineering.”, 2011, vol. 14, no. 8, 2011, pp. 729–739.
[12] A. Rohlmann, T. Zandera, H. Schmidt, H.-J. Wilke, G. Bergmann, “Analysis of the influence of disc degeneration on the mechanical behaviour of a lumbar motion segment using the finite element method.” Journal of Biomechanics vol. 39, no. 13, 2006, pp. 2484–2490.
[13] P. Reimche, “Segmentierung computertomographischer Daten der Wirbelsäule“, bachelor thesis, Universität Koblenz-Landau, Germany, 2010.
[14] S. Nowack, „Visualisierung der Wirbelsäule anhand segmentierter Computertomographie-Daten zur weiteren Verwendung in SIMPACK“, bachelor thesis, Universität Koblenz-Landau, Germany, 2010.
[15] P. Roussouly, S. Gollogly, E. Berthonnaud, J. Dimnet, “Classication of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position.” Spine, vol. 30, no.3, 2005, pp. 346-353.
[16] U. Hausen, „Entwicklung von 3D-Simulationsmodellen für die computergestützte Operationsplanung bei chirurgischen Eingriffen an der Lendenwirbelsäule.“ Phd thesis, Universität Koblenz-Landau, Germany, 2013.
[17] A. White, M. M. Panjabi. Clinical Biomechanics of the Spine. 2nd ed. Philadelphia, Pa: JB Lippincott Co; 1990.
[18] J. Nicolas V., W. William, C.,Winkelstein, A. Beth, “Spinal Facet Joint Biomechanics and Mechanotransduction in Normal, Injury and Degenerative Conditions.” Journal of Biomechanical Engineering”. vol. 133, no. 7, 2011; 71010-NaN. doi:10.1115/1.4004493.
[19] A. Rohlmann, T. Zander, M. Rao and G. Bergmann, “Applying a follower load delivers realistic results for simulating standing”, Journal of Biomechanics, vol. 42, no. 10, 2009, pp.1520-1526.
[20] H.-J. Wilke, P. Neef, M. Caimi, T. Hoogland, L.E. Claes, “New In Vivo measurement of pressure in the intervertebral disc in daily life.” Spine, vol. 24, no. 8, 1999, pp.755-762.
[21] K. Sato, S. Kikuchi and T. Yonezawa, In Vivo intradiscal pressure measurement in healthy individuals and in patients with ongoing back problems, Spine, Vol. 24, 1999, pp.2468-2474.
[22] K. Wood, P. Kos, M. Schendel, K. Persson, “Effects of position on the sagittal-plane profile of the thoracolumbal spine”, Journal of spinal disorders, vol. 9, no. 2, 1996, pp. 165-169.
[23] S. Bauer, “Effects of Individual Spine Curvatures - A Comparative Study with the Help of Computer Modeling”, Biomedical Engineering. ISSN (Online) 1862-278X, ISSN (Print) 0013-5585, DOI: 10.1515/bmt-2012-4052, September 2012.
[1] G. B. J. Andersson, “Epidemiological features of chronic low-back pain.” Lancet, vol. 354, 1999, pp. 581-585.
[2] A. Rohlmann, T. Zander, M. Rao, G.Bergmann, “Applying a follower load delivers realistic results for simulating standing.” Journal of Biomechanics, vol. 42, no. 10, 2009, pp. 1520-1526, doi:10.1016/j.jbiomech.2009.03.048.
[3] A. Rohlmann, L. Bauer, T. Zander, G. Bergmann, H.-J. Wilke , “Determination of trunk muscle forces for flexion and extension by using a validated finite element model of the lumbar spine and measured in vivo data.” Journal of Biomechanics, vol. 36, no. 6, 2006, pp. 981–989.
[4] A. Rohlmann , T. Zander, M. Rao, G. Bergmann, “Realistic loading conditions for upper body bending.” Journal of Biomechanics, vol. 42, no. 7, 2009, p. 884–890.
[5] T. Zander, A. Rohlmann, J. Calisse, G. Bergmann, “Estimation of muscle force in the lumbar spine during upper-body inclination.” Clinical Biomechanics, 16 Supplement, No. 1, 2001, S73-S8.
[6] H. Schmidt, F. Heuer, U. Simon, A. Kettler, A. Rohlmann, L. Claes, H.-J. Wilke, ”Application of a new calibration method for a three-dimensional finite element model of a human lumbar annulus fibrosus.” Clinical Biomechanics, vol. 21, no. 4 337–344.
[7] H.-J. Wilke, et al., “Shear properties of the lumbar intervertebral disc after spondylolysis.” European Spine Journal, 20, 2011.
[8] J. R. Williams, R. N. Natarajan, G. B. J. Andersson, “Inclusion of regional poroelastic material properties better predicts biomechanical behavior of lumbar discs subjected to dynamic loading.” Journal of Biomechanics, vol. 40, no. 9, 2007, pp. 1981-1987.
[9] F. Heuer, H. Schmidt, Z. Klezl, L. Claes, H.-J. Wilke, “Stepwise reduction of functional spinal structures increase range of motion and change lordosis angle.” Journal of Biomechanics vol. 40, 2007, pp. 271–280.
[10] V. Goel, K. Kong, J. S. Han, J. N. Weinstein, L. G. Gilbertson, “A combined Finite Element and Optimization Investigation of lumbar spine mechanics with and without muscles.” Spine , vol. 18, no 11, 1993, pp. 1531-1541.
[11] F. Galbusera, H. Schmidt, C. Neidlinger-Wilke, H.-J. Wilke, “Computermethods in Biomechanics and Biomedical Engineering.”, 2011, vol. 14, no. 8, 2011, pp. 729–739.
[12] A. Rohlmann, T. Zandera, H. Schmidt, H.-J. Wilke, G. Bergmann, “Analysis of the influence of disc degeneration on the mechanical behaviour of a lumbar motion segment using the finite element method.” Journal of Biomechanics vol. 39, no. 13, 2006, pp. 2484–2490.
[13] P. Reimche, “Segmentierung computertomographischer Daten der Wirbelsäule“, bachelor thesis, Universität Koblenz-Landau, Germany, 2010.
[14] S. Nowack, „Visualisierung der Wirbelsäule anhand segmentierter Computertomographie-Daten zur weiteren Verwendung in SIMPACK“, bachelor thesis, Universität Koblenz-Landau, Germany, 2010.
[15] P. Roussouly, S. Gollogly, E. Berthonnaud, J. Dimnet, “Classication of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position.” Spine, vol. 30, no.3, 2005, pp. 346-353.
[16] U. Hausen, „Entwicklung von 3D-Simulationsmodellen für die computergestützte Operationsplanung bei chirurgischen Eingriffen an der Lendenwirbelsäule.“ Phd thesis, Universität Koblenz-Landau, Germany, 2013.
[17] A. White, M. M. Panjabi. Clinical Biomechanics of the Spine. 2nd ed. Philadelphia, Pa: JB Lippincott Co; 1990.
[18] J. Nicolas V., W. William, C.,Winkelstein, A. Beth, “Spinal Facet Joint Biomechanics and Mechanotransduction in Normal, Injury and Degenerative Conditions.” Journal of Biomechanical Engineering”. vol. 133, no. 7, 2011; 71010-NaN. doi:10.1115/1.4004493.
[19] A. Rohlmann, T. Zander, M. Rao and G. Bergmann, “Applying a follower load delivers realistic results for simulating standing”, Journal of Biomechanics, vol. 42, no. 10, 2009, pp.1520-1526. [20] H.-J. Wilke, P. Neef, M. Caimi, T. Hoogland, L.E. Claes, “New In Vivo measurement of pressure in the intervertebral disc in daily life.” Spine, vol. 24, no. 8, 1999, pp.755-762.
[21] K. Sato, S. Kikuchi and T. Yonezawa, In Vivo intradiscal pressure measurement in healthy individuals and in patients with ongoing back problems, Spine, Vol. 24, 1999, pp.2468-2474.
[22] K. Wood, P. Kos, M. Schendel, K. Persson, “Effects of position on the sagittal-plane profile of the thoracolumbal spine”, Journal of spinal disorders, vol. 9, no. 2, 1996, pp. 165-169.
[23] S. Bauer, “Effects of Individual Spine Curvatures - A Comparative Study with the Help of Computer Modeling”, Biomedical Engineering. ISSN (Online) 1862-278X, ISSN (Print) 0013-5585, DOI: 10.1515/bmt-2012-4052, September 2012.
Institute for Medical Engineering and Information Processing,, University of Koblenz-Landau, Campus Koblenz,, Koblenz, Germany, 049-261/278-1784, (bauer@uni-koblenz.de).
No. of Downloads: 10 | No. of Views: 933
