References
- Australia National Replacement Registry. 2016. Australian Orthopaedic Association (AOA) 2016. Demographics and outcomes of a ankle arthroplasty, Supplementary report.
- Bekerom V, Raven EE. 2007. The distal fascicle of the anterior inferior tibiofibular ligament as a cause of tibiotalar impingement syndrome: a current concepts review. Knee Surg Sports Traumatol Arthrosc. 15(4):465–471.
- Beumar A, Hemert WLV, Swierstra BA. 2003. A biomechanical evaluation of the tibiofibular and tibiotalar ligaments of the ankle. Foot Ankle Int. 24:426–429.
- Bouguecha A, Weigel N, Behrens B-A, Stukenborg-Colsman C, Waizy H. 2011. Numerical simulation of strain-adaptive bone remodelling in the ankle joint. Biomed Eng Online. 10(58):58–13.
- Brown TE, Harper BL, Bjorgul K. 2013. Comparison of cemented and uncemented fixation in total knee arthroplasty. Orthopedics. 36(5):380–387.
- Corazza F, O’Connor JJ, Leardini A, Parenti Castelli V. 2003. Ligament fibre recruitment and forces for the anterior drawer test at the human ankle joint. J Biomech. 36(3):363–372.
- Dobbs HS, Minski MJ. 1980. Metal ion release after total hip replacement. Biomaterials. 1(4):193–198.
- Elliot JB, Gundapaneni D, Goswami T. 2014. Finite element analysis of stress and wear characterization in total ankle replacements. J Mech Behv Biomed Mat. 34:134–145.
- Espinosa N, Walti M, Favre P, Snedeker JG. 2010. Misalignment of total ankle components can induce high joint contact pressures. J Bone Joint Surg Am. 92(5):1179–1187.
- Ghosh R, Gupta S. 2014. Bone remodelling around cementless composite acetabular components: The effects of implant geometry and implant-bone interfacial conditions. J Mech Behv Biomed Mat. 32:257–269.
- Ghosh R, Mukharjee K, Gupta S. 2013. Bone remodelling around uncemented metallic and ceramic acetabular components. Proc Inst Mech Eng H. 227(5):490–502.
- Ghosh R, Pal B, Ghosh D, Gupta S. 2015. Finite element analysis of a hemi-pelvis: the effect of inclusion of cartilage layer on acetabular stresses and strain. Comput Methd Biomech Biomed Eng. 18(7):697–710.
- Hoffman O. 1967. The brittle strength of orthotropic material. J Compos Mater. 1(2):200–206.
- Huiskes R, Weinans H, Grootenboer HJ, Dalstra M, Fudala B, Slooff TJ. 1987. Adaptive bone-remodeling theory applied to prosthetic-design analysis. J Biomech. 20(11–12):1135–1150.
- Intema F, Thomas TP, Anderson DD, Elkins JM, Brown TD, Amendola A, Lafeber FP, Saltzman CL. 2011. Subchondral bone remodelling is related to clinical improvement after joint distraction in the treatment of ankle osteoarthritis. Osteo Cart. 19(6):668–675.
- Kaplan SJ, Hayes WC, Stone JL, Beaupré GS. 1985. Tensile strength of bovine trabecular bone. J Biomech. 18(9):723–727.
- Liacouras PC, Wayne JS. 2007. Computational modelling to predict mechanical function of joints: Application to the lower leg simulation of two cadaver studies. J Biomech Eng. 129(6):811–817.
- Linde F, Hvid I, Madsen F. 1992. The effect of specimen geometry on the mechanical behaviour of trabecular bone specimens. J Biomech. 25(4):359–368.
- MacDonald JW, Morscher E, Masar Z. 1990. Cementless uncoated polyethylene acetabular component in total hip replacement: review of 5-10 years results. J Bone Joint Surg Br. 72(3):423–430.
- Manley MT, Ong KL, Kurtz SM. 2006. The potential for bone loss in acetabular structures following THA. Clin Orthop Relat Res. 453:246–253.
- Mondal S, Ghosh R. 2017. A numerical study on stress distribution across the ankle joint: Effects of material distribution of bone, muscle force and ligaments. J Orthop. 14(3):329–335.
- Mondal S, Ghosh R. 2019. The effects of implant orientations and implant–bone interfacial conditions on potential causes of failure of tibial component due to total ankle replacement. J Med Bio Eng. 39:541–551.
- National Joint Registry. 2016. National Joint Registry for England and Wales. 13th Annual Report, NJR.
- Netter FH, Hansen JT. 2003. Atlas of human anatomy. 3rd ed. Teterboro (NJ): Icon Learning Systems.
- Ozen M, Sayman O, Havitcioglu H. 2013. Modeling and stress analyses of a normal foot-ankle and a prosthetic foot-ankle complex. Acta Bioeng Biomech. 15(3):19–27.
- Pal B, Gupta S, New A. 2009. A numerical study of failure mechanisms in the cemented resurfaced femur: effects of interface characteristics and bone remodelling. Proc Inst Mech Eng H. 223(4):471–484.
- Procter, P, Paul, J P. 1982. Ankle joint biomechanics. J Biomech. 15(9):627–634. doi:10.1016/0021-9290(82)90017-3.
- Reggiani B, Leardini A, Corazza F, Taylor M. 2006. Finite element analysis of total ankle replacement during the stance phase of gait. J Biomech. 39(8):1435–1443.
- Rodrigues D. 2013. Biomechanics of the total ankle arthroplasty: Stress analysis and bone remodelling [MS thesis]. Portugal: Tecnico Lisboa.
- Seireg A, Arvikar RJ. 1975. The prediction of muscular load shearing and joint forces in the lower extremities during walking. J Biomech. 8(2):89–102.
- Sopher RS, Amis AA, Calder JD, Jeffers JRT. 2017. Total ankle replacement design and positioning affect implant-bone micromotion and bone strains. Med Eng Phys. 42:80–90.
- “STAR Surgical Technique” – Small Bone Innovations, Inc. Cited 2013 4th march.
- Stone JL, Beaupre GS, Hayes WC. 1983. Multiaxial strength characteristics of trabecular bone. J Biomech. 16(9):743–752.
- Terrier A, Larrea X, Guerdat J, Crevoisier X. 2014. Development and experimental validation of a finite element model of total ankle replacement. J Biomech. 47(3):742–745.
- Varghese B, Short D, Penmetsa R, Goswami T, Hangartner T. 2011. Computed-tomography-based finite-element models of long bones can accurately capture strain response to bending and torsion. J Biomech. 44(7):1374–1379.
- Weinans H, Huiskes R, van Rietbergen B, Sumner DR, Turner TM, Galante JO. 1993. Adaptive bone remodelling around bonded noncemented total hip arthroplasty: A comparison between animal experiments and computer simulation. J Orthop Res. 11(4):500–513.