메뉴 건너뛰기
Medical Engineering and Physics
Volumn 30, Issue 2, 2008, Pages 182-189
Fluid pressure driven fibril reinforcement in creep and relaxation tests of articular cartilage
Author keywords

Articular cartilage mechanics; Bovine knee cartilage; Creep test; Fibril reinforced model; Nonlinear material properties; Stress relaxation; Unconfined compression
Indexed keywords

CREEP TESTING; LIGAMENTS; MATHEMATICAL MODELS; STRESS RELAXATION;
EID: 38149101559     PISSN: 13504533     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.medengphy.2007.03.001     Document Type: Article
Times cited : (47)
References (37)
  • 1
    • 0345643551 scopus 로고
    • General theory of three-dimensional consolidation
    • Biot M.A. General theory of three-dimensional consolidation. J Appl Phys 12 (1941) 155-164
    • (1941) J Appl Phys , vol.12 , pp. 155-164
    • Biot, M.A.1
  • 3
    • 0031229557 scopus 로고    scopus 로고
    • Ligament creep cannot be predicted from stress relaxation at low stress: a biomechanical study of the rabbit medial collateral ligament
    • Thornton G.M., Oliynyk A., Frank C.B., and Shrive N.G. Ligament creep cannot be predicted from stress relaxation at low stress: a biomechanical study of the rabbit medial collateral ligament. J Orthopaed Res 15 (1997) 652-656
    • (1997) J Orthopaed Res , vol.15 , pp. 652-656
    • Thornton, G.M.1    Oliynyk, A.2    Frank, C.B.3    Shrive, N.G.4
  • 5
    • 0035272805 scopus 로고    scopus 로고
    • Ligament creep behavior can be predicted from stress relaxation by incorporating fiber recruitment
    • Thornton G.M., Frank C.B., and Shrive N.G. Ligament creep behavior can be predicted from stress relaxation by incorporating fiber recruitment. J Rheol 45 (2001) 493-507
    • (2001) J Rheol , vol.45 , pp. 493-507
    • Thornton, G.M.1    Frank, C.B.2    Shrive, N.G.3
  • 6
    • 0036375241 scopus 로고    scopus 로고
    • Ligament creep recruits fibres at low stresses and can lead to modulus-reducing fibre damage at higher creep stresses: a study in rabbit medial collateral ligament model
    • Thornton G.M., Shrive N.G., and Frank C.B. Ligament creep recruits fibres at low stresses and can lead to modulus-reducing fibre damage at higher creep stresses: a study in rabbit medial collateral ligament model. J Orthopaed Res 20 (2002) 967-974
    • (2002) J Orthopaed Res , vol.20 , pp. 967-974
    • Thornton, G.M.1    Shrive, N.G.2    Frank, C.B.3
  • 7
    • 0029329183 scopus 로고
    • Limitations of the standard linear solid model of intervertebral discs subject to prolonged loading and low-frequency vibration in axial compression
    • Li S., Patwardhan A.G., Amirouche F.M.L., Havey R., and Meade K.P. Limitations of the standard linear solid model of intervertebral discs subject to prolonged loading and low-frequency vibration in axial compression. J Biomech 28 (1995) 779-790
    • (1995) J Biomech , vol.28 , pp. 779-790
    • Li, S.1    Patwardhan, A.G.2    Amirouche, F.M.L.3    Havey, R.4    Meade, K.P.5
  • 8
    • 0022453388 scopus 로고
    • The "instantaneous" deformation of cartilage: effects of collagen fiber orientation and osmotic stress
    • Mizrahi J., Maroudas A., Lanir Y., Ziv I., and Webber T.J. The "instantaneous" deformation of cartilage: effects of collagen fiber orientation and osmotic stress. Biorheology 23 (1986) 311-330
    • (1986) Biorheology , vol.23 , pp. 311-330
    • Mizrahi, J.1    Maroudas, A.2    Lanir, Y.3    Ziv, I.4    Webber, T.J.5
  • 9
    • 0018983548 scopus 로고
    • Biphasic creep and stress relaxation of articular cartilage in compression: theory and experiments
    • Mow V.C., Kuei S.C., Lai W.M., and Armstrong C.G. Biphasic creep and stress relaxation of articular cartilage in compression: theory and experiments. J Biomech Eng 102 (1980) 73-84
    • (1980) J Biomech Eng , vol.102 , pp. 73-84
    • Mow, V.C.1    Kuei, S.C.2    Lai, W.M.3    Armstrong, C.G.4
  • 10
    • 0031279438 scopus 로고    scopus 로고
    • Finite deformation biphasic material properties of bovine articular cartilage from confined compression experiments
    • Ateshian G.A., Warden W.H., Kim J.J., Grelsamer R.P., and Mow V.C. Finite deformation biphasic material properties of bovine articular cartilage from confined compression experiments. J Biomech 30 (1997) 1157-1164
    • (1997) J Biomech , vol.30 , pp. 1157-1164
    • Ateshian, G.A.1    Warden, W.H.2    Kim, J.J.3    Grelsamer, R.P.4    Mow, V.C.5
  • 11
    • 0021424895 scopus 로고
    • Relaxation and creep quasilinear viscoelastic models for normal articular cartilage
    • Simon B.R., Coats R.S., and Woo S.L.Y. Relaxation and creep quasilinear viscoelastic models for normal articular cartilage. J Biomech Eng 106 (1984) 159-164
    • (1984) J Biomech Eng , vol.106 , pp. 159-164
    • Simon, B.R.1    Coats, R.S.2    Woo, S.L.Y.3
  • 12
    • 0022820669 scopus 로고
    • Finite deformation of soft tissue: analysis of a mixture model in uni-axial compression
    • Holmes M.H. Finite deformation of soft tissue: analysis of a mixture model in uni-axial compression. J Biomech Eng 108 (1986) 372-381
    • (1986) J Biomech Eng , vol.108 , pp. 372-381
    • Holmes, M.H.1
  • 13
    • 0023161999 scopus 로고
    • Biphasic indentation of articular cartilage-I. Theoretical analysis
    • Mak A.F., Lai W.M., and Mow V.C. Biphasic indentation of articular cartilage-I. Theoretical analysis. J Biomech 20 (1987) 703-714
    • (1987) J Biomech , vol.20 , pp. 703-714
    • Mak, A.F.1    Lai, W.M.2    Mow, V.C.3
  • 14
    • 0028375889 scopus 로고
    • Indentation analysis of biphasic articular cartilage: nonlinear phenomena under finite deformation
    • Suh J.K., and Spilker RL. Indentation analysis of biphasic articular cartilage: nonlinear phenomena under finite deformation. J Biomech Eng 116 (1994) 1-9
    • (1994) J Biomech Eng , vol.116 , pp. 1-9
    • Suh, J.K.1    Spilker RL2
  • 15
    • 0031103133 scopus 로고    scopus 로고
    • Effects of static axial strain on the tensile properties and failure mechanisms of self-assembled collagen fibers
    • Pins G.D., Huang E.K., Christiansen D.L., and Silver F.H. Effects of static axial strain on the tensile properties and failure mechanisms of self-assembled collagen fibers. J Appl Polym Sci 63 (1997) 1429-1440
    • (1997) J Appl Polym Sci , vol.63 , pp. 1429-1440
    • Pins, G.D.1    Huang, E.K.2    Christiansen, D.L.3    Silver, F.H.4
  • 16
    • 2442552915 scopus 로고    scopus 로고
    • Non-linear tensile properties of bovine articular cartilage and their variation with age and depth
    • Charlebois M., McKee M.D., and Buschmann M.D. Non-linear tensile properties of bovine articular cartilage and their variation with age and depth. J Biomech Eng 126 (2004) 129-137
    • (2004) J Biomech Eng , vol.126 , pp. 129-137
    • Charlebois, M.1    McKee, M.D.2    Buschmann, M.D.3
  • 17
    • 0036889729 scopus 로고    scopus 로고
    • Tensile properties of the in vivo human gastrocnemius tendon
    • Maganaris C.N., and Paul J.P. Tensile properties of the in vivo human gastrocnemius tendon. J Biomech 35 (2002) 1639-1646
    • (2002) J Biomech , vol.35 , pp. 1639-1646
    • Maganaris, C.N.1    Paul, J.P.2
  • 18
    • 0018887399 scopus 로고
    • Drag induced compression of articular cartilage during a permeation experiment
    • Lai W.M., and Mow V.C. Drag induced compression of articular cartilage during a permeation experiment. Biorheology 17 (1980) 113-123
    • (1980) Biorheology , vol.17 , pp. 113-123
    • Lai, W.M.1    Mow, V.C.2
  • 20
    • 1842844133 scopus 로고    scopus 로고
    • A finite element analysis methodology for representing the articular cartilage functional structure
    • Olsen S., and Oloyede A. A finite element analysis methodology for representing the articular cartilage functional structure. Comp Meth Biomech Biomed Eng 5 (2002) 377-386
    • (2002) Comp Meth Biomech Biomed Eng , vol.5 , pp. 377-386
    • Olsen, S.1    Oloyede, A.2
  • 21
    • 25644433567 scopus 로고    scopus 로고
    • Electromechanical response of articular cartilage in indentation-considerations on the determination of cartilage properties during arthroscopy
    • Li L.P., and Herzog W. Electromechanical response of articular cartilage in indentation-considerations on the determination of cartilage properties during arthroscopy. Comp Meth Biomech Biomed Eng 8 (2005) 83-91
    • (2005) Comp Meth Biomech Biomed Eng , vol.8 , pp. 83-91
    • Li, L.P.1    Herzog, W.2
  • 22
    • 0344241018 scopus 로고    scopus 로고
    • Characterization of enzymatically induced degradation of articular cartilage using high frequency ultrasound
    • Toyras J., Rieppo J., Nieminen M.T., Helminen H.J., and Jurvelin J.S. Characterization of enzymatically induced degradation of articular cartilage using high frequency ultrasound. Phys Med Biol 44 (1999) 2723-2733
    • (1999) Phys Med Biol , vol.44 , pp. 2723-2733
    • Toyras, J.1    Rieppo, J.2    Nieminen, M.T.3    Helminen, H.J.4    Jurvelin, J.S.5
  • 23
    • 0034741671 scopus 로고    scopus 로고
    • T2 relaxation reveals spatial collagen architecture in articular cartilage: a comparative quantitative MRI and polarized light microscopic study
    • Nieminen M.T., Rieppo J., Toyras J., Hakumaki J.M., Silvennoinen J., Hyttinen M.M., et al. T2 relaxation reveals spatial collagen architecture in articular cartilage: a comparative quantitative MRI and polarized light microscopic study. Magn Reson Med 46 (2001) 487-493
    • (2001) Magn Reson Med , vol.46 , pp. 487-493
    • Nieminen, M.T.1    Rieppo, J.2    Toyras, J.3    Hakumaki, J.M.4    Silvennoinen, J.5    Hyttinen, M.M.6
  • 24
    • 0037397716 scopus 로고    scopus 로고
    • Strain-rate dependent stiffness of articular cartilage in unconfined compression
    • (erratum: 125: 566)
    • Li L.P., Buschmann M.D., and Shirazi-Adl A. Strain-rate dependent stiffness of articular cartilage in unconfined compression. J Biomech Eng 125 (2003) 161-168 (erratum: 125: 566)
    • (2003) J Biomech Eng , vol.125 , pp. 161-168
    • Li, L.P.1    Buschmann, M.D.2    Shirazi-Adl, A.3
  • 25
    • 2942624378 scopus 로고    scopus 로고
    • Consolidation responses of delipidized articular cartilage
    • Oloyede A., Gudimetla P., Crawford R., and Hills B.A. Consolidation responses of delipidized articular cartilage. Clin Biomech 19 (2004) 534-542
    • (2004) Clin Biomech , vol.19 , pp. 534-542
    • Oloyede, A.1    Gudimetla, P.2    Crawford, R.3    Hills, B.A.4
  • 26
    • 0032845706 scopus 로고    scopus 로고
    • Nonlinear analysis of cartilage in unconfined ramp compression using a fibril reinforced poroelastic model
    • Li L.P., Soulhat J., Buschmann M.D., and Shirazi-Adl A. Nonlinear analysis of cartilage in unconfined ramp compression using a fibril reinforced poroelastic model. Clin Biomech 14 (1999) 673-682
    • (1999) Clin Biomech , vol.14 , pp. 673-682
    • Li, L.P.1    Soulhat, J.2    Buschmann, M.D.3    Shirazi-Adl, A.4
  • 27
    • 0017290857 scopus 로고
    • Balance between swelling pressure and collagen tension in normal and degenerate cartilage
    • Maroudas A. Balance between swelling pressure and collagen tension in normal and degenerate cartilage. Nature 260 (1976) 808-809
    • (1976) Nature , vol.260 , pp. 808-809
    • Maroudas, A.1
  • 28
    • 0033459529 scopus 로고    scopus 로고
    • Interrelation of creep and relaxation: a modeling approach for ligaments
    • Lakes R.S., and Vanderby R. Interrelation of creep and relaxation: a modeling approach for ligaments. J Biomech Eng 121 (1999) 612-615
    • (1999) J Biomech Eng , vol.121 , pp. 612-615
    • Lakes, R.S.1    Vanderby, R.2
  • 29
    • 33645025674 scopus 로고    scopus 로고
    • Generalized solution for predicting relaxation from creep in soft tissue: application to ligament
    • Oza A., Vanderby Jr. R., and Lakes R.S. Generalized solution for predicting relaxation from creep in soft tissue: application to ligament. Int J Mech Sci 48 (2006) 662-673
    • (2006) Int J Mech Sci , vol.48 , pp. 662-673
    • Oza, A.1    Vanderby Jr., R.2    Lakes, R.S.3
  • 30
    • 0042490665 scopus 로고    scopus 로고
    • Fibril reinforced poroelastic model predicts specifically mechanical behavior of normal, proteoglycan depleted and collagen degraded articular cartilage
    • Korhonen R.K., Laasanen M.S., Töyräs J., Lappalainen R., Helminen H.J., and Jurvelin J.S. Fibril reinforced poroelastic model predicts specifically mechanical behavior of normal, proteoglycan depleted and collagen degraded articular cartilage. J Biomech 36 (2003) 1373-1379
    • (2003) J Biomech , vol.36 , pp. 1373-1379
    • Korhonen, R.K.1    Laasanen, M.S.2    Töyräs, J.3    Lappalainen, R.4    Helminen, H.J.5    Jurvelin, J.S.6
  • 31
    • 0842286650 scopus 로고    scopus 로고
    • Stresses in the local collagen network of articular cartilage: a poroviscoelastic fibril-reinforced finite element study
    • erratum: 2005;38: 2138-2140
    • Wilson W., van Donkelaar C.C., van Rietbergen B., Ito K., and Huiskes R. Stresses in the local collagen network of articular cartilage: a poroviscoelastic fibril-reinforced finite element study. J Biomech 37 (2004) 357-366 erratum: 2005;38: 2138-2140
    • (2004) J Biomech , vol.37 , pp. 357-366
    • Wilson, W.1    van Donkelaar, C.C.2    van Rietbergen, B.3    Ito, K.4    Huiskes, R.5
  • 32
    • 18044379517 scopus 로고    scopus 로고
    • A fibril-reinforced poroviscoelastic swelling model for articular cartilage
    • erratum: 2005;38: 2138-2140
    • Wilson W., van Donkelaar C.C., van Rietbergen B., and Huiskes R. A fibril-reinforced poroviscoelastic swelling model for articular cartilage. J Biomech 38 (2005) 1195-1204 erratum: 2005;38: 2138-2140
    • (2005) J Biomech , vol.38 , pp. 1195-1204
    • Wilson, W.1    van Donkelaar, C.C.2    van Rietbergen, B.3    Huiskes, R.4
  • 33
    • 0033084032 scopus 로고    scopus 로고
    • Experimental determination of stress distributions in articular cartilage before and after sustained loading
    • Adams M.A., Kerin A.J., Bhatia L.S., Chakrabarty G., and Dolan P. Experimental determination of stress distributions in articular cartilage before and after sustained loading. Clin Biomech 14 (1999) 88-96
    • (1999) Clin Biomech , vol.14 , pp. 88-96
    • Adams, M.A.1    Kerin, A.J.2    Bhatia, L.S.3    Chakrabarty, G.4    Dolan, P.5
  • 34
    • 0034177762 scopus 로고    scopus 로고
    • Unconfined compression of articular cartilage: nonlinear behavior and comparison with a fibril-reinforced biphasic model
    • Fortin M., Soulhat J., Shirazi-Adl A., Hunziker E.B., and Buschmann M.D. Unconfined compression of articular cartilage: nonlinear behavior and comparison with a fibril-reinforced biphasic model. J Biomech Eng 122 (2000) 189-195
    • (2000) J Biomech Eng , vol.122 , pp. 189-195
    • Fortin, M.1    Soulhat, J.2    Shirazi-Adl, A.3    Hunziker, E.B.4    Buschmann, M.D.5
  • 35
    • 0035034736 scopus 로고    scopus 로고
    • Biphasic poroviscoelastic simulation of the unconfined compression of articular cartilage: I. Simultaneous prediction of reaction force and lateral displacement
    • DiSilvestro M.R., Zhu Q., Wong M., Jurvelin J.S., and Suh J.K.F. Biphasic poroviscoelastic simulation of the unconfined compression of articular cartilage: I. Simultaneous prediction of reaction force and lateral displacement. J Biomech Eng 123 (2001) 191-197
    • (2001) J Biomech Eng , vol.123 , pp. 191-197
    • DiSilvestro, M.R.1    Zhu, Q.2    Wong, M.3    Jurvelin, J.S.4    Suh, J.K.F.5
  • 36
    • 33751343651 scopus 로고    scopus 로고
    • A nonlinear biphasic viscohyperelastic model for articular cartilage
    • García J.J., and Cortés D.H. A nonlinear biphasic viscohyperelastic model for articular cartilage. J Biomech 39 (2006) 2991-2998
    • (2006) J Biomech , vol.39 , pp. 2991-2998
    • García, J.J.1    Cortés, D.H.2
  • 37
    • 0033150597 scopus 로고    scopus 로고
    • Stimulation of aggrecan synthesis in cartilage explants by cyclic loading is localized to regions of high interstitial fluid flow
    • Buschmann M.D., Kim Y.J., Wong M., Frank E., Hunziker E.B., and Grodzinsky A.J. Stimulation of aggrecan synthesis in cartilage explants by cyclic loading is localized to regions of high interstitial fluid flow. Arch Biochem Biophys 366 (1999) 1-7
    • (1999) Arch Biochem Biophys , vol.366 , pp. 1-7
    • Buschmann, M.D.1    Kim, Y.J.2    Wong, M.3    Frank, E.4    Hunziker, E.B.5    Grodzinsky, A.J.6

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.