K. Kumar, Occurrence and Pattern of Long Bone Fractures in Growing Dogs 358 with Normal and Osteopenic Bones, J. Vet. Med. Ser. A, vol.54, pp.484-490, 2007.

C. W. Miller, G. Sumner-smith, C. Sheridan, and P. W. Pennock, Using the Unger 360 system to classify 386 long bone fractures in dogs, J. Small Anim. Pract, vol.39, p.361, 1998.

K. Voss, M. A. Kull, M. Hässig, and P. M. Montavon, Repair of long-bone fractures in 363 cats and small dogs with the Unilock mandible locking plate system

, Orthop. Traumatol, vol.5, pp.398-405, 2009.

A. Vajgel, Comparative Finite Element Analysis of the Biomechanical Stability 393 of 2.0 Fixation Plates in Atrophic Mandibular Fractures, J. Oral Maxillofac. Surg, vol.71, pp.335-342, 2013.

M. , Prediction of proximal femur strength using a CT-based nonlinear 396 finite element method: Differences in predicted fracture load and site with changing 397 load and boundary conditions, Bone, vol.45, pp.226-231, 2009.

R. Hambli, A. Bettamer, and S. Allaoui, Finite element prediction of proximal femur 399 fracture pattern based on orthotropic behaviour law coupled to quasi-brittle 400 damage, Med. Eng. Phys, vol.34, pp.202-210, 2012.

A. Tsouknidas, K. Anagnostidis, G. Maliaris, and N. Michailidis, Fracture risk in the 402 femoral hip region: A finite element analysis supported experimental approach, J, p.403

. Biomech, , vol.45, pp.1959-1964, 2012.