Applying a follower load delivers realistic results for simulating standing A Rohlmann, T Zander, M Rao, G Bergmann Journal of biomechanics 42 (10), 1520-1526, 2009 | 210 | 2009 |
Realistic loading conditions for upper body bending A Rohlmann, T Zander, M Rao, G Bergmann Journal of biomechanics 42 (7), 884-890, 2009 | 167 | 2009 |
Automated finite element meshing of the lumbar spine: verification and validation with 18 specimen-specific models JQ Campbell, DJ Coombs, M Rao, PJ Rullkoetter, AJ Petrella Journal of Biomechanics 49 (13), 2669-2676, 2016 | 65 | 2016 |
Explicit finite element modeling of the human lumbar spine M Rao | 18 | 2012 |
Stepwise validated finite element model of the human lumbar spine D Coombs, M Bushelow, P Laz, M Rao, P Rullkoetter Frontiers in Biomedical Devices 56000, V001T01A004, 2013 | 14 | 2013 |
Simulation of lumbar spine biomechanics using Abaqus D Coombs, M Rao, M Bushelow, J Deacy, P Laz, P Rullkoetter SIMULIA Customer Conference, 2011 | 13 | 2011 |
Efficient probabilistic finite element modeling for evaluation of spinal mechanics M Rao, AJ Petrella, MA Baldwin, PJ Laz, PJ Rullkoetter Transactions of the ORS 34, 1771, 2009 | 6 | 2009 |
Combined rigid-deformable modeling of lumbar spine mechanics JS Deacy, M Rao, S Smith, AJ Petrella, PJ Laz, PJ Rullkoetter Summer Bioengineering Conference 44038, 701-702, 2010 | 3 | 2010 |
Preop Anatomical FEA Templating for Patient Selection and Optimizing Range of Motion in TDR M Rao, CM Cain, M Lafleur, J Hollenbeck, P Rullkoetter The Spine Journal 12 (9), S158, 2012 | | 2012 |
DEFORMATION OF THE LUMBAR SPINE DURING STANDING STRONGLY DEPENDS ON ASSUMED LOADING CONDITIONS A Rohlmann, T Zander, M Rao, N Burra, G Bergmann Journal of Biomechanics, S196, 2008 | | 2008 |