1. Harrison, N., J.R. Field, F. Quondamatteo, W. Curtin, P.E. McHugh, and P.M. Donnell, Preclinical Trial of a Novel Surface Architecture for Improved Primary Fixation of Cementless Orthopaedic Implants. Clinical Biomechanics, 2014. 29(8): p.861-8682. Harrison, N., P. McHugh, W. Curtin, and P. Mc Donnell, Micromotion and Friction Evaluation of a Novel Surface Architecture for Improved Primary Fixation of Cementless Orthopaedic Implants. Journal of the Mechanical Behavior of Biomedical Materials, 2013.
3. Zhang, T., N. Harrison, P. McDonnell, P. McHugh, and S. Leen, A finite element methodology for wear-fatigue analysis for modular hip implants. Tribology International, 2013.
4. Zhang, T., N.M. Harrison, P.F. McDonnell, P.E. McHugh, and S.B. Leen, Micro–macro wear–fatigue of modular hip implant taper-lock coupling. The Journal of Strain Analysis for Engineering Design, 2014. 49(1): p. 2-18.
5. Mc Donnell, P., N. Harrison, S. Lohfeld, O. Kennedy, Y. Zhang, and P. Mc Hugh, Investigation of the mechanical interaction of the trabecular core with an external shell using rapid prototype and finite element models. Journal of the Mechanical Behavior of Biomedical Materials, 2010. 3(1): p. 63-76.
6. McDonnell, P., N. Harrison, and P. McHugh, Investigation of the failure behaviour of vertebral trabecular architectures under uni-axial compression and wedge action loading conditions. Medical Engineering & Physics, 2010. 32(6): p. 569-576.
7. Harrison, N.M., P. McDonnell, L. Mullins, N. Wilson, D. O’Mahoney, and P.E. McHugh, Failure modelling of trabecular bone using a non-linear combined damage and fracture voxel finite element approach. Biomechanics and Modeling in Mechanobiology, 2013: p. 1-17.
8. Kelly, N., N.M. Harrison, P. McDonnell, and J.P. McGarry, An experimental and computational investigation of the post-yield behaviour of trabecular bone during vertebral device subsidence. Biomechanics and Modeling in Mechanobiology, 2012: p. 1-19.
9. McDonnell, P., N. Harrison, D. O'Mahoney, P. McHugh, and S. Lohfeld, The use of rapid prototype models for investigation of failure mechanisms in trabecular bone. Journal of Biomechanics, 2006. 39: p. S12.
10. Harrison, N.M., P.F. McDonnell, D.C. O’Mahoney, O.D. Kennedy, F.J. O’Brien, and P.E. McHugh, Heterogeneous linear elastic trabecular bone modelling using micro-CT attenuation data and experimentally measured heterogeneous tissue properties. Journal of Biomechanics, 2008. 41(11): p. 2589-2596.
11. Harrison, N.M. and P.E. McHugh, Comparison of trabecular bone behavior in core and whole bone samples using high-resolution modeling of a vertebral body. Biomechanics and Modeling in Mechanobiology, 2010. 9(4): p. 469-480.
12. Harrison, N., D. O'Mahoney, P. McDonnell, and P. McHugh, Damage and failure of trabecular bone with non-linear geometry and inhomogeneous material properties. Journal of Biomechanics, 2006. 39: p. S417.
13. Mc Donnell, P., M.A.K. Liebschner, W. Tawackoli, and P.E. Mc Hugh, Vibrational testing of trabecular bone architectures using rapid prototype models. Medical Engineering & Physics, 2009. 31(1): p. 108-115.
14. Mc Donnell, P., N. Harrison, M.A.K. Liebschner, and P.E. Mc Hugh, Simulation of vertebral trabecular bone loss using voxel finite element analysis. Journal of Biomechanics, 2009. 42(16): p. 2789-2796.
15. McDonnell, P., P.E. McHugh, and D. O'Mahoney, Vertebral osteoporosis and trabecular bone quality. Annals of Biomedical Engineering, 2007. 35(2): p. 170-89.
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