Kalajahi, S. M. H., Nazemi, S. M., & Johnston, J. D. (2020). An exclusion approach for addressing partial volume artifacts with quantititive computed tomography-based finite element modeling of the proximal tibia. Medical Engineering and Physics, 76, 95-100. doi:10.1016/j.medengphy.2019.10.013 |
Nazemi, S. M., & Geris, L. (2019). Computational Modeling of a Growing Fetal Long Bone [Paper presentation]. ESB 2019. |
Nazemi, S. M., & Geris, L. (October 2018). Delayed bone formation partly explains tibial anterolateral bowing associated with neurofibromatosis type 1 [Poster presentation]. International Conference on Systems Biology, Lyon, France. |
Arjmand, H., Nazemi, S. M., Kontulainen, S. A., McLennan, C. E., Hunter, D. J., Wilson, D. R., & Johnston, J. D. (2018). Mechanical Metrics of the Proximal Tibia are Precise and Differentiate Osteoarthritic and Normal Knees: A Finite Element Study. Scientific Reports. doi:10.1038/s41598-018-29880-y |
Nazemi, S. M., & Geris, L. (2018). In-Silico Mechanobiological Modeling of Tibial Bone Growth [Poster presentation]. National Committee of Biomedical Engineering. |
Nazemi, S. M., Amini, M., Kontulainen, S. A., Milner, J. S., Holdsworth, D. W., Masri, B. A., Wilson, D. R., & Johnston, J. D. (2017). Optimizing finite element predictions of local subchondral bone structural stiffness using neural network-derived density-modulus relationships for proximal tibial subchondral cortical and trabecular bone. Clinical Biomechanics, 41, 1 - 8. doi:10.1016/j.clinbiomech.2016.10.012 |
Nazemi, S. M., Kalajahi, S. M. H., Cooper, D. M. L., Kontulainen, S. A., Holdsworth, D. W., Masri, B. A., Wilson, D. R., & Johnston, J. D. (2017). Accounting for spatial variation of trabecular anisotropy with subject-specific finite element modeling moderately improves predictions of local subchondral bone stiffness at the proximal tibia. Journal of Biomechanics, 59, 101 - 108. doi:10.1016/j.jbiomech.2017.05.018 |
Arjmand, H., Nazemi, S. M., Kontulainen, S. A., Milner, J. S., Holdsworth, D. W., McLennan, C. E., Hazel, D., Talmo, C., Hunter, D. J., Wilson, D. R., & Johnston, J. D. (2016). Finite element modeling of proximal tibial stiffness in normal and osteoarthritic knees: in vivo precision and preliminary comparisons. Osteoarthritis and Cartilage. |
Nazemi, S. M., Cooper, D. M. L., & Johnston, J. D. (2016). Quantifying trabecular bone material anisotropy and orientation using low resolution clinical CT images: A feasibility study. Medical Engineering and Physics, 38 (9), 978 - 987. doi:10.1016/j.medengphy.2016.06.011 |
Nazemi, S. M., Johnston, J. D., & Cooper, D. M. L. (2016). Strain Derived Fluid Flow Explains Observed Alignment of Breaking Out Canals Towards Main Direction of Loading in the Compact Bone [Poster presentation]. American Society of Bone and Mineral Research Annual Meeting. |
Amini, M., Nazemi, S. M., Lanovaz, J. L., Kontulainen, S., Masri, B. A., Wilson, D. R., Szyszkowski, W., & Johnston, J. D. (2015). Individual and combined effects of OA-related subchondral bone alterations on proximal tibial surface stiffness: a parametric finite element modeling study. Medical Engineering and Physics, 37 (8), 783 - 791. doi:10.1016/j.medengphy.2015.05.011 |
Nazemi, S. M. (2015). Accounting for spatial variation of anisotropy does not improve finite element prediction of local stiffness at the proximal tibial subchondral surface [Poster presentation]. Alberta Biomedical Engineering Conference. |
Nazemi, S. M., Amini, M., Kontulainen, S. A., Milner, J. S., Holdsworth, D. W., Masri, B. A., Wilson, D. R., & Johnston, J. D. (2015). Prediction of local proximal tibial subchondral bone structural stiffness using subject-specific finite element modeling: Effect of selected density–modulus relationship. Clinical Biomechanics, 30 (7), 703 - 712. doi:10.1016/j.clinbiomech.2015.05.002 |
Nazemi, S. M., Amini, M., Cooper, D. M. L., & Johnston, J. D. (2014). Estimating Orthotropic Elastic Material Properties Using Clinically Available Imaging Parameters [Poster presentation]. World Congress of Biomechanics. |
Nazemi, S. M., Amini, M., Kontulainen, S. A., Millner, J. S., Holdsworth, D. W., Wilson, D. R., & Johnston, J. D. (2014). Role of Density-Modulus Relationship in Predicting Tibial Subchondral Bone Stiffness Using Quantitative Computed Tomography based Finite Element Technique [Poster presentation]. World Congress of Biomechanics. |
Nazemi, S. M., Kontulainen, S. A., Wilson, D. R., & Johnston, J. D. (2014). Prediction of Local Proximal Tibial Subchondral Bone Stiffness using Subject-Specific Finite Element Modeling: Effect of Anisotropy Inclusion [Poster presentation]. Alberta Biomedical Engineering Conference. |
Mirzaei, M., Zeinali, A., Razmjoo, A., & Nazemi, S. M. (2009). On prediction of the strength levels and failure patterns of human vertebrae using quantitative computed tomography (QCT)-based finite element method. Journal of Biomechanics. doi:10.1016/j.jbiomech.2009.04.042 |
Zeinali, A., Hashemi, B., Akhlaghpoor, S., & Nazemi, S. M. (2008). Noninvasive Prediction of Vertebral Body Compressive Strength Using Finite Element Method and An Image Based Technique. In 4th Kuala Lumpur International Conference on Biomedical Engineering 2008. |
Zeinali, A., Hashemi, B., Akhlaghpoor, S., Mirzaei, M., & Nazemi, S. M. (2007). Prediction of Human Vertebral Compressive Strength Using Quantitative Computed Tomography Based Nonlinear Finite Element Method. Iranian Journal of Medical Physics. |