Experiment-based FE simulation of oncology knee endoprosthesis

• Autorzy: Zach L. , Konvickova S. , Ruzicka P.
• Języki publikacji: EN

Abstrakty

EN

This paper presents two FE simulations of an oncology knee-joint endoprosthesis. Firstly dynamic experiment-based analysis traditionally made on special knee simulator has been calculated. Another FE simulation of an oncology knee-joint endoprosthesis was made on a complex model based on previously developed geometric model of a lower limb. The presented paper aims to prove the potential of finite element method in biomechanics, especially in development of joint endoprosthesis.

Słowa kluczowe

EN

endoprotheses; biomaterials; oncology

• Wydawca: Polish Society for Biomaterials in Cracow
• Czasopismo: Engineering of Biomaterials
• Rocznik: 2011
• Tom: Vol. 14, no. 106-108
• Strony: 10--12
• Opis fizyczny: Bibliogr. 11 poz., tab., wykr., zdj.

Twórcy

autor

Zach L.

• Czech Technical University in Prague, Faculty of Mechanical Engineering, Laboratory of Biomechanics, Prague, Czech Republic

autor

Konvickova S.

• Czech Technical University in Prague, Faculty of Mechanical Engineering, Laboratory of Biomechanics, Prague, Czech Republic

autor

Ruzicka P.

• Czech Technical University in Prague, Faculty of Mechanical Engineering, Laboratory of Biomechanics, Prague, Czech Republic

Bibliografia

• [1] J.M.T. Penrose (2002) Development of an accurate three dimensional finite element knee model. Comp. Meth. in Biomech. and Biomed. Eng. 5, pp. 291-300.
• [2] J.A. Heegaard (2001) A computer model to simulate patellar biomechanics following total kneee replacemnet: the effects of femoral component alignment. Clinical Biomech. 16, pp. 415-423.
• [3] P. Beillas, et al (2004) A new method to investigate in vivo knee behavior using a finite element model of the lower limb. J Biomech. 37, pp. 1019-1030.
• [4] A.C. Godest (2002) Simulation of a knee joint replacement during a gait cycle using explicit finite element analysis. J. Biomech. 35, pp. 267-275.
• [5] J.P. Halloran (2004) Explicit finite element modeling of total knee replacement mechanics. J. Biomech. 38, pp. 323-331.
• [6] ISO 14243-1. Implants for surgery - Wear of total knee-joint prostheses - Part 1: Loading and displacement parameters for wear-testing machines with load control and corresponding environmental conditions for test. 2002.
• [7] ISO 14243-2. Implants for surgery - Wear of total knee-joint prostheses - Part 2: Methods of measurement. 2000.
• [8] ISO 14243-3. Implants for surgery - Wear of total knee-joint prostheses - Part 3: Loading and displacement parameters for wear-testing machines with displacement control and corresponding environmental conditions for test. 2004.
• [9] Prospon, s.r.o., Jiriho Voskovce 3206, Kladno, 272 01, Czech Republic. On-line at: http://www.prospon.cz/.
• [10] M. Vilimek (2005), The challenges of musculotendon forces estimation in multiple muscle systems, [PhD Thesis]. Prague: Czech Technical University - Fac. of Mechanical Engineering, 108 p.
• [11] L. Zach, S. Konvickova, P. Ruzicka (2008), Finite Element Analysis of Lower Limb. Engineering of Biomaterials, vol. 11, no. 77-80, p. 15-18, ISSN 1429-7248.