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Journal Abstract Search

720 related items for PubMed ID: 15863103

  • 1.
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  • 2. Characterization of articular cartilage by combining microscopic analysis with a fibril-reinforced finite-element model.
    Julkunen P, Kiviranta P, Wilson W, Jurvelin JS, Korhonen RK.
    J Biomech; 2007; 40(8):1862-70. PubMed ID: 17052722
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  • 3. Importance of collagen orientation and depth-dependent fixed charge densities of cartilage on mechanical behavior of chondrocytes.
    Korhonen RK, Julkunen P, Wilson W, Herzog W.
    J Biomech Eng; 2008 Apr; 130(2):021003. PubMed ID: 18412490
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  • 4. A biphasic viscohyperelastic fibril-reinforced model for articular cartilage: formulation and comparison with experimental data.
    García JJ, Cortés DH.
    J Biomech; 2007 Apr; 40(8):1737-44. PubMed ID: 17014853
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  • 5. Uncertainties in indentation testing of articular cartilage: a fibril-reinforced poroviscoelastic study.
    Julkunen P, Korhonen RK, Herzog W, Jurvelin JS.
    Med Eng Phys; 2008 May; 30(4):506-15. PubMed ID: 17629536
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  • 6. The role of viscoelasticity of collagen fibers in articular cartilage: axial tension versus compression.
    Li LP, Herzog W, Korhonen RK, Jurvelin JS.
    Med Eng Phys; 2005 Jan; 27(1):51-7. PubMed ID: 15604004
    [Abstract] [Full Text] [Related]

  • 7. Investigation of mechanical behavior of articular cartilage by fibril reinforced poroelastic models.
    Li L, Shirazi-Adl A, Buschmann MD.
    Biorheology; 2003 Jan; 40(1-3):227-33. PubMed ID: 12454409
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  • 9. Contribution of tissue composition and structure to mechanical response of articular cartilage under different loading geometries and strain rates.
    Julkunen P, Jurvelin JS, Isaksson H.
    Biomech Model Mechanobiol; 2010 Apr; 9(2):237-45. PubMed ID: 19680701
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  • 10. Stress-relaxation of human patellar articular cartilage in unconfined compression: prediction of mechanical response by tissue composition and structure.
    Julkunen P, Wilson W, Jurvelin JS, Rieppo J, Qu CJ, Lammi MJ, Korhonen RK.
    J Biomech; 2008 Apr; 41(9):1978-86. PubMed ID: 18490021
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  • 11. The role of fibril reinforcement in the mechanical behavior of cartilage.
    Li L, Buschmann MD, Shirazi-Adl A.
    Biorheology; 2002 Apr; 39(1-2):89-96. PubMed ID: 12082271
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  • 12. Fluid pressure driven fibril reinforcement in creep and relaxation tests of articular cartilage.
    Li LP, Korhonen RK, Iivarinen J, Jurvelin JS, Herzog W.
    Med Eng Phys; 2008 Mar; 30(2):182-9. PubMed ID: 17524700
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  • 13. The role of viscoelasticity of collagen fibers in articular cartilage: theory and numerical formulation.
    Li LP, Herzog W.
    Biorheology; 2004 Mar; 41(3-4):181-94. PubMed ID: 15299251
    [Abstract] [Full Text] [Related]

  • 14. A nonlinear biphasic viscohyperelastic model for articular cartilage.
    García JJ, Cortés DH.
    J Biomech; 2006 Mar; 39(16):2991-8. PubMed ID: 16316659
    [Abstract] [Full Text] [Related]

  • 15. Depth-dependent analysis of the role of collagen fibrils, fixed charges and fluid in the pericellular matrix of articular cartilage on chondrocyte mechanics.
    Korhonen RK, Herzog W.
    J Biomech; 2008 Mar; 41(2):480-5. PubMed ID: 17936762
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  • 20. The correspondence between equilibrium biphasic and triphasic material properties in mixture models of articular cartilage.
    Ateshian GA, Chahine NO, Basalo IM, Hung CT.
    J Biomech; 2004 Mar; 37(3):391-400. PubMed ID: 14757459
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