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Journal Abstract Search

191 related items for PubMed ID: 4067702

  • 21. Computationally efficient finite element evaluation of natural patellofemoral mechanics.
    Fitzpatrick CK, Baldwin MA, Rullkoetter PJ.
    J Biomech Eng; 2010 Dec; 132(12):121013. PubMed ID: 21142327
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  • 22. Parametric analysis of the stress distribution on the articular cartilage and subchondral bone.
    Wang Y, Wei HW, Yu TC, Cheng CK.
    Biomed Mater Eng; 2007 Dec; 17(4):241-7. PubMed ID: 17611300
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  • 24. Effect of varus/valgus malalignment on bone strains in the proximal tibia after TKR: an explicit finite element study.
    Perillo-Marcone A, Taylor M.
    J Biomech Eng; 2007 Feb; 129(1):1-11. PubMed ID: 17227092
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  • 28. The effect of boundary condition on the biomechanics of a human pelvic joint under an axial compressive load: a three-dimensional finite element model.
    Hao Z, Wan C, Gao X, Ji T.
    J Biomech Eng; 2011 Oct; 133(10):101006. PubMed ID: 22070331
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  • 32. Acetabular loading in active abduction.
    Kristan A, Mavcic B, Cimerman M, Iglis A, Tonin M, Slivnik T, Kralj-Iglic V, Daniel M.
    IEEE Trans Neural Syst Rehabil Eng; 2007 Jun; 15(2):252-7. PubMed ID: 17601195
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  • 33. The influence of mechanical properties of subchondral plate, femoral head and neck on dynamic stress distribution of the articular cartilage.
    Wei HW, Sun SS, Jao SH, Yeh CR, Cheng CK.
    Med Eng Phys; 2005 May; 27(4):295-304. PubMed ID: 15823470
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  • 35. Evaluating a suitable level of model complexity for finite element analysis of the intact acetabulum.
    Clarke SG, Phillips AT, Bull AM.
    Comput Methods Biomech Biomed Engin; 2013 May; 16(7):717-24. PubMed ID: 22149002
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  • 40. [The clinical relevance of biomechanical analysis of the hip area].
    Kummer B.
    Z Orthop Ihre Grenzgeb; 1991 May; 129(4):285-94. PubMed ID: 1833916
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