McLachlin, S. D., Rasoulinejad, P. ., Gurr, K. R., Bailey, S. I., Bailey, C. S., & Dunning, C. E. (2010). Sub-Axial Cervical Spine Instability Following Unilateral Facet Injury: A Biomechanical Analysis. Summer Bioengineering Conference, 44038, 489-490. American Society of Mechanical Engineers.
Reference author: Stewart McLachlin
First name
Stewart
Middle name
D
Last name
McLachlin
McLachlin, S. D., Beaton, B. J., Sabo, M. T., Gurr, K. R., Bailey, S. I., Bailey, C. S., & Dunning, C. E. (2008). Comparing the fixation of a novel hollow screw versus a conventional solid screw in human sacra under cyclic loading. Spine, 33, 1870-1875.
McLachlin, S. D. (2013). An Investigation of subaxial cervical spine trauma and surgical treatment through biomechanical simulation and kinematic analysis. ProQuest.
Hosein, Y. K., Clynick, M. P., McLachlin, S. D., King, G. J., & Dunning, C. E. (2013). The effect of stem curvature on torsional stability of a generalized cemented joint replacement system. Journal of Applied Biomaterials & Functional Materials, 11, 167-171.
McLachlin, S. D., Ferreira, L. M., & Dunning, C. E. (2014). A refined technique to calculate finite helical axes from rigid body trackers. Journal of Biomechanical Engineering, 136.
Correia, M. A., McLachlin, S. D., & Cronin, D. S. (2020). Optimization of muscle activation schemes in a finite element neck model simulating volunteer frontal impact scenarios. Journal of Biomechanics, 104, 109754.
Yao, R. ., McLachlin, S. D., Rasoulinejad, P. ., Gurr, K. R., Siddiqi, F. ., Dunning, C. E., & Bailey, C. S. (2016). Influence of graft size on spinal instability with anterior cervical plate fixation following in vitro flexion-distraction injuries. The Spine Journal, 16, 523-529.
Katchky, R. N., McLachlin, S. D., Wong, E. K., Finkelstein, J. ., Kreder, H. J., & Whyne, C. M. (2016). Thermal cycling can extend tool life in orthopaedic operating rooms. Journal of Orthopaedic Research, 34, 539-543.
McLachlin, S. D., Bailey, C. S., & Dunning, C. E. (2016). Use of the alpha shape to quantify finite helical axis dispersion during simulated spine movements. Journal of Biomechanics, 49, 112-118.
- Previous page
- Currently on page 2 2