References:
[1] OTS Canadian, “Nonunion following intramedullary nailing of the femur with and without reaming. Results of a multicenter randomized clinical trial,” The Journal of Bone and Joint Surgery American Volume, vol. 85, pp. 2093-2096, 2003.
[2] M. J. Beltran, J. L. Gary and C. A. Collinge, “Management of distal femur fractures with modern plates and nails: state of the art,” Journal of Orthopaedic Trauma, vol. 29, pp. 165-172, 2015.
[3] A. K. Gangavalli, C. O. Nwachuku, “Management of distal femur fractures in adults: an overview of options,” Orthopedic Clinics, vol. 47, pp. 85-96, 2016.
[4] R. Reina, F. E. Vilella, N. Ramírez, R. Valenzuela, G. Nieves and C. A. Foy, “Knee pain and leg-length discrepancy after retrograde femoral nailing,” American Journal Of Orthopedics, vol. 36, pp. 325, 2007.
[5] M. Malik, P. Harwood, P. Diggle and S. Khan, “Factors affecting rates of infection and nonunion in intramedullary nailing,” The Journal of bone and joint surgery British volume, vol. 86, pp. 556-560, 2004.
[6] T. J. Lujan, C .E. Henderson, S. M. Madey, D. C. Fitzpatrick, J. L. Marsh and M. Bottlang, “Locked plating of distal femur fractures leads to inconsistent and asymmetric callus formation,” Journal of orthopaedic trauma, vol. 24, pp. 156-162, 2010.
[7] W. M. Ricci, P. N. Streubel, S. Morshed, C. A. Collinge, S. E. Nork and M. J. Gardner, “Risk factors for failure of locked plate fixation of distal femur fractures: an analysis of 335 cases,” Journal of orthopaedic trauma, vol. 28, pp. 83-89, 2014.
[8] A. Gefen, “Optimizing the biomechanical compatibility of orthopedic screws for bone fracture fixation,” Medical engineering & physics, vol. 24, pp. 337-347, 2002.
[9] Y. P. Lin, C. T. Wang and K. R. Dai, “Reverse engineering in CAD model reconstruction of customized artificial joint,” Medical Engineering & Physics, vo. 27, pp. 189-193, 2005.
[10] N. Narra, J. Valášek, M. Hannula, P. Marcián, G. K. Sándor, J. Hyttinen and J. Wolff, “Finite element analysis of customized reconstruction plates for mandibular continuity defect therapy,” Journal of biomechanics, vol. 47, pp. 264-268, 2015.
[11] D. S. Shin, K. Lee and D. Kim, “Biomechanical study of lumbar spine with dynamic stabilization device using finite element method,” Computer-Aided Design, vol. 39, pp. 559-567, 2007.