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Journal Abstract Search

510 related items for PubMed ID: 16901743

  • 1. Influence of femoral head size on impingement, dislocation and stress distribution in total hip replacement.
    Kluess D, Martin H, Mittelmeier W, Schmitz KP, Bader R.
    Med Eng Phys; 2007 May; 29(4):465-71. PubMed ID: 16901743
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  • 2. [Experimental analysis of neutral, asymmetric and constraint liners for total hip replacement: investigation of range of motion and protection against joint instability].
    Bader R, Steinhauser E, Scholz R, Simnacher M, Mittelmeier W.
    Z Orthop Ihre Grenzgeb; 2004 May; 142(5):577-85. PubMed ID: 15472768
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  • 4. Limited range of motion of hip resurfacing arthroplasty due to unfavorable ratio of prosthetic head size and femoral neck diameter.
    Kluess D, Zietz C, Lindner T, Mittelmeier W, Schmitz KP, Bader R.
    Acta Orthop; 2008 Dec; 79(6):748-54. PubMed ID: 19085490
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  • 5. Influence of total hip design on dislocation: a computer model and clinical analysis.
    Padgett DE, Lipman J, Robie B, Nestor BJ.
    Clin Orthop Relat Res; 2006 Jun; 447():48-52. PubMed ID: 16741474
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  • 6. [Noncemented total hip arthroplasty: influence of extramedullary parameters on initial implant stability and on bone-implant interface stresses].
    Ramaniraka NA, Rakotomanana LR, Rubin PJ, Leyvraz P.
    Rev Chir Orthop Reparatrice Appar Mot; 2000 Oct; 86(6):590-7. PubMed ID: 11060433
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  • 7. The safe-zones for combined cup and neck anteversions that fulfill the essential range of motion and their optimum combination in total hip replacements.
    Yoshimine F.
    J Biomech; 2006 Oct; 39(7):1315-23. PubMed ID: 15894324
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  • 9. Biomechanics of large femoral heads: what they do and don't do.
    Crowninshield RD, Maloney WJ, Wentz DH, Humphrey SM, Blanchard CR.
    Clin Orthop Relat Res; 2004 Dec; (429):102-7. PubMed ID: 15577473
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  • 10. Unconstrained tripolar hip implants: effect on hip stability.
    Guyen O, Chen QS, Bejui-Hugues J, Berry DJ, An KN.
    Clin Orthop Relat Res; 2007 Feb; 455():202-8. PubMed ID: 17279045
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  • 11. Association between dislocation, impingement, and articular geometry in retrieved acetabular polyethylene cups.
    Tanino H, Harman MK, Banks SA, Hodge WA.
    J Orthop Res; 2007 Nov; 25(11):1401-7. PubMed ID: 17471491
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  • 12. Finite element simulation of early creep and wear in total hip arthroplasty.
    Bevill SL, Bevill GR, Penmetsa JR, Petrella AJ, Rullkoetter PJ.
    J Biomech; 2005 Dec; 38(12):2365-74. PubMed ID: 16214484
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  • 13. Effect of acetabular component anteversion on dislocation mechanisms in total hip arthroplasty.
    Higa M, Tanino H, Abo M, Kakunai S, Banks SA.
    J Biomech; 2011 Jun 03; 44(9):1810-3. PubMed ID: 21529811
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  • 14. Using nonlinear finite element models to analyse stress distribution during subluxation and torque required for dislocation of newly developed total hip structure after prosthetic impingement.
    Chi WM, Lin CC, Ho YJ, Lin HC, Chen JH.
    Med Biol Eng Comput; 2018 Jan 03; 56(1):37-47. PubMed ID: 28667590
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  • 19. Influence of polyethylene creep behavior on wear in total hip arthroplasty.
    Penmetsa JR, Laz PJ, Petrella AJ, Rullkoetter PJ.
    J Orthop Res; 2006 Mar 03; 24(3):422-7. PubMed ID: 16479600
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  • 20. Study of micromotion in modular acetabular components during gait and subluxation: a finite element investigation.
    Amirouche F, Romero F, Gonzalez M, Aram L.
    J Biomech Eng; 2008 Apr 03; 130(2):021002. PubMed ID: 18412489
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