최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Advances in biomechanics & applications, v.1 no.1, 2014년, pp.67 - 76
Ramos, Antonio (TEMA, Department of Mechanical Engineering, University of Aveiro) , Marques, Hugo (TEMA, Department of Mechanical Engineering, University of Aveiro) , Mesnard, Michel (University of Bordeaux)
Bone properties are one of the key components when constructing models that can simulate the mechanical behavior of a mandible. Due to the complexity of the structure, the tooth, ligaments, different bones etc., some simplifications are often considered and bone properties are one of them. The objec...
Austman, R.L., Milner, J.S., Holdsworth, D.W. and Dunning, C.E. (2008), "The effect of the density-modulus relationship selected to apply material properties in a finite element model of long bone", J. Biomech., 41( 3), 171-3176.
Bujtar, P., Sandor, G.K., Bojtos, A., Szucs, A. and Barabas, J. (2010), "Finite element analysis of the human mandible at 3 different stages of life", Oral Surg. Oral Med. O., 110(3), 301-309.
Chen, G., Schmutz, B., Epari, D., Rathnayaka, K., Ibrahim, S., Schuetz, M.A. and Pearcy, M.J. (2010), "A new approach for assigning bone material properties from CT images into finite element models", J. Biomech., 43(5), 1011-1015.
Chowdhury, A.R., Kashi, A. and Saha, S. (2011), "A comparison of stress distributions for different surgical procedures, screw dimensions and orientations for a Temporomandibular joint implant", J. Biomech., 44(14), 2584-2587.
Groning, F., Liu, J., Fagan, M.J. and O'Higgins, P. (2009), "Validating a voxel-based finite element model of a human mandible using digital speckle pattern interferometry", J. Biomech., 42(9), 1224-1229.
Helgason, B., Perilli, E, Schileo, E., Taddei, F., Brynjolfsson, S. and Viceconti, M. (2008), "Mathematical relationships between bone density and mechanical properties: a literature review", Clin. Biomech., 23(2), 135-146.
Helgason, B., Taddei, F., Palsson, H., Schileo, E., Cristofolini, L., Viceconti, M. and Brynjolfsson, S. (2008), "A modified method for assigning material properties to FE models of bones", Med. Eng. Phys., 30(4), 444-453.
Huang, H.L., Tsai, M.T., Lin, D.J., Chien, C.S. and Hsu, J.T. (2010), "A new method to evaluate the elastic modulus of cortical bone by using a combined computed tomography and finite element approach", Comput. Biol. Med., 40(4), 464-468.
Kalender, W. A. (2006), "X-ray computed tomography", Phys. Med. Biol., 51, 29-43.
Liu, J.G., Li, D.S., Ma, W.H., Zhou, Z.P. and Xu, X.X. (2004), "Computer assisted reconstruction of 3D canal model of femur and design for custom-made stem", Chin. Med. J.117(8), 1265-1267.
Marinescu, R., Daegling, D.J. and Rapoff, A.J. (2005), "Finite-element modeling of the anthropoid mandible: the effects of altered boundary conditions", Anat. Rec. Part A, 283(2), 300-309.
Mesnard, M. (2005), Elaboration et validation d'un protocol de caracterisation de l'Articulation Temporo-Mandibulaire, University Bordeux, IST Press.
Mesnard, M., Ramos, A., Ballu, A., Morlier, J. Cid, M. And Simoes, J.A. (2011), "Biomechanical analysis comparing natural and alloplastic temporomandibular joint replacement using a finite element model", J. Oral Maxil. Surg., 69(4), 1008-1017.
Panagiotopoulou, O., Curtis, N., O'Higgins, P. and Cobb, S.N. (2010), "Modelling subcortical bone in finite element analyses: a validation and sensitivity study in the macaque mandible", J. Biomech., 43(8), 1603-1611.
Parascandolo, S., Spinzia, A., Piombino, P. and Califano, L. (2010), "Two load sharing plates fixation in mandibular condylar fractures: biomechanical basis", J. Cranio Maxill. Surg., 38(5), 385-390.
Ramos, A., Completo, A., Relvas, C., Mesnard. M. and Simoes, J.A. (2011), "Straight, semi-anatomic and anatomic TMJ implants: the influence of condylar geometry and bone fixation screws", J. Cranio Maxill. Surg., 39(5), 343-350.
Reina-Romo, E., Sampietro-Fuentes, A., Gomez-Benito, M.J., Dominguez, J., Doblare, M. And Garcia-Aznar, J.M. (2010), "Biomechanical response of a mandible in a patient affected with hemifacial microsomia before and after distraction osteogenesis", Med. Eng. Phys., 32, 860-866.
Rho, J.Y., Hobatho, M.C., and Ashman, R.B. (1995), "Relations of mechanical properties to density and CT numbers in human bone", Med. Eng. Phy., 17(5), 347-355.
Roberts, W.E., Huja, S. and Roberts, J.A. (2004), "Bone modeling: biomechanics, molecular mechanisms, and clinical perspectives", Semin. Orthod., 10(2), 123-161.
Sato, H., Kawamura, A., Yamaguchi, M. and Kasai, K. (2005), "Relationship between masticatory function and internal structure of the mandible based on computed tomography findings", Am. J. Orthod. Dentofac., 128(6), 766-773.
Sun, W. and Lal, P. (2002), "Recent development on computer aided tissue engineering - a review", Comp. Methods Programs Biomed., 67(2), 85-103.
Tie, Y., Ma, R., Ye, M., Wang, D. and Wang. C. (2006), "Rapid prototyping fabrication and finite element evaluation of 3D medical pelvic model", Int. J. Adv. Manuf. Tech., 28(3-4), 302-306.
Wong, R.C., Tideman, H., Merkx, M.A., Jansen, J., Goh, S.M. and Liao, K. (2011), "Review of biomechanical models used in studying the biomechanics of reconstructed mandibles", Int. J. Oral Maxil. Surg., 40, 393-400.
Yosibash, Z., Trabelsi, N. and Milgrom, C. (2007), "Reliable simulations of the human proximal femur by high-order finite element analysis validated by experimental observations", J. Biomech., 40(16), 3688-3699.
Zannoni, C., Mantovani, R. and Viceconti, M. (1998), "Material properties assignment to finite element models of bone structures: a new method", Med. Eng. Phy., 20(10), 735-740.
Zhang, F., Peck, C.C. and Hannam, A.G. (2002), "Mass properties of the human mandible", J. Biomech., 35(7), 975-978.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.