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Computer Methods in Biomechanics and Biomedical Engineering Volume 10, 2007 - Issue 4
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Original Articles

Confocal arthroscopy-based patient-specific constitutive models of cartilaginous tissues—I: development of a microstructural model

Zeike A. Taylor Intelligent Systems for Medicine Laboratory, School of Mechanical Engineering, The University of Western Australia, 35 Stirling Hwy, Crawley/Perth, WA, 6009, Australia
,
Thomas B. Kirk Intelligent Systems for Medicine Laboratory, School of Mechanical Engineering, The University of Western Australia, 35 Stirling Hwy, Crawley/Perth, WA, 6009, Australia
&
Karol Miller Intelligent Systems for Medicine Laboratory, School of Mechanical Engineering, The University of Western Australia, 35 Stirling Hwy, Crawley/Perth, WA, 6009, AustraliaCorrespondence[email protected]
Pages 307-316 | Received 17 Jul 2006, Accepted 01 Mar 2007, Published online: 01 Aug 2007

References

  • Ault , H.K. and Hoffman , A.H. 1992 . A composite micromechanical model for connective tissues: Part I—theory . J. Biomech. Eng. , 114 : 137 – 141 .
  • Bathe , K.-J. 1996 . Finite Element Procedures , Upper Saddle River, N.J. : Prentice Hall .
  • Broom , N.D. and Marra , D.L. 1986 . Ultrastructural evidence for fibril-to-fibril associations in articular cartilage and their functional implication . J. Anat. , 146 : 185 – 200 .
  • Broom , N.D. and Silyn-Roberts , H. 1989 . The three-dimensional “knit” of collagen fibrils in articular cartilage . Connect. Tissue Res. , 23 : 261 – 277 .
  • Broom , N. , Chen , M.H. and Hardy , A. 2001 . A degeneration-based hypothesis for interpreting fibrillar changes in the osteoarthritic cartilage matrix . J. Anat. , 199 : 683 – 698 .
  • Brown , T.D. and Singerman , R.J. 1986 . Experimental determination of the linear biphasic constitutive coefficients of human fetal proximal femoral chondroepiphysis . J. Biomech. , 19 : 597 – 605 .
  • Chen , M.H. and Broom , N. 1998 . On the ultrastructure of softened cartilage: a possible model for structural transformation . J. Anat. , 192 : 329 – 341 .
  • Christensen , R.M. and Waals , F.M. 1972 . Effective stiffness of randomly oriented fibre composites . J. Compos. Mater. , 6 : 518 – 532 .
  • DiSilvestro , M.R. , Zhu , Q. and Suh , J.K. 2001a . Biphasic poroviscoelastic simulation of the unconfined compression of articular cartilage: II—effect of variable strain rates . J. Biomech. Eng. , 123 : 198 – 200 .
  • DiSilvestro , M.R. , Zhu , Q. , Wong , M. , Jurvelin , J.S. and Suh , J.K. 2001b . Biphasic poroviscoelastic simulation of the unconfined compression of articular cartilage: I—simultaneous prediction of reaction force and lateral displacement . J. Biomech. Eng. , 123 : 191 – 197 .
  • Farquhar , T. , Dawson , P.R. and Torzilli , P.A. 1990 . A microstructural model for the anisotropic drained stiffness of articular cartilage . J. Biomech. Eng. , 112 : 414 – 425 .
  • Hardingham , T.E. , Muir , H. , Kwan , M.K. , Lai , W.M. and Mow , V.C. 1987 . Viscoelastic properties of proteoglycan solutions with varying proportions present as aggregates . J. Orthop. Res. , 5 : 36 – 46 .
  • Hashin , Z. 1966 . Viscoelastic fiber reinforced materials . AIAA J. , 4 : 1411 – 1417 .
  • Hashin , Z. and Rosen , B.W. 1964 . The elastic moduli of fiber-reinforced materials . J. Appl. Mech. , 31 : 223 – 232 .
  • Haut , R.C. and Little , R.W. 1972 . A constitutive equation for collagen fibers . J. Biomech. , 5 : 423 – 430 .
  • Hill , R. 1964 . Theory of mechanical properties of fibre-strengthened materials: I. Elastic behaviour . J. Mech. Phys. Solids , 12 : 199 – 212 .
  • Jones , R.M. 1999 . Mechanics of Composite Materials , 2nd ed. , Philadelphia : Taylor & Francis .
  • Jones , C.W. , Keogh , A. , Smolinski , D. , Wu , J.P. , Kirk , T.B. and Zheng , M.-H. 2004a . Histological assessment of the chondral and connective tissues of the knee by confocal arthroscope . J. Musculoskelet. Res. , 8 : 75 – 86 .
  • Jones , C.W. , Smolinski , D. , Wu , J.P. , Willers , C. , Miller , K. , Kirk , T.B. and Zheng , M.-H. 2004b . Quantification of chondrocyte morphology by confocal arthroscopy . J. Musculoskelet. Res. , 8 : 145 – 154 .
  • Jones , C.W. , Willers , C. , Keogh , A. , Smolinski , D. , Fick , D. , Yates , P. , Kirk , T.B. and Zheng , M.-H. Matrix-induced autologous chondrocyte implantation (MACI) in sheep: assessment by confocal arthroscopy . J. Orthop. Res. , Submitted
  • T.B. Kirk, M.-H. Zheng, P.M. Delaney, D. Smolinski, J.P. Wu, T. Dela Rosa, D.J. Wood and K. Miller, The development of a confocal arthroscope, in 7th Annual Scientific Meeting of the Australian and New Zealand Orthopaedic Research Society, Sydney, Australia, 5-6 Oct 2001
  • Lekhnitskii , S. 1963 . Theory of Elasticity of an Anisotropic Elastic Body , San Francisco : Holden-Day, Inc .
  • Leslie , B.W. , Gardner , D.L. , Cunningham , D.S. and McGeough , J.A. 1998 . Radial fibre proportions in human knee joint menisci . Acta Anat. , 163 : 212 – 217 .
  • Maroudas , A. 1979 . Adult Articular Cartilage , Edited by: Freeman , M.A. Kent : Pitman Medical Publishing Co Ltd .
  • Mijailovich , S.M. , Stamenovic , D. and Fredberg , J.J. 1993 . Toward a kinetic theory of connective tissue micromechanics . J. Appl. Physiol. , 74 : 665 – 681 .
  • Miller , K. 1998 . Modelling soft tissue using biphasic theory—A word of caution . Comput. Methods Biomech. Biomed. Engin. , 1 : 261 – 263 .
  • Miller , K. 2002 . Biomechanics of Brain for Computer Integrated Surgery , Warsaw, Poland : Warsaw University of Technology Publishing House .
  • Miller , K. and Chinzei , K. 1997 . Constitutive modelling of brain tissue: experiment and theory . J. Biomech. , 30 : 1115 – 1121 .
  • Miller , K. and Chinzei , K. 2002 . Mechanical properties of brain tissue in tension . J. Biomech. , 35 : 483 – 490 .
  • Mow , V.C. , Mak , A.F. , Lai , W.M. , Rosenberg , L.C. and Tang , L.-H. 1984 . Viscoelastic properties of proteoglycan subunits and aggregates in varying solution concentrations . J. Biomech. , 17 : 325 – 338 .
  • Optiscan Pty Ltd, http://www.optiscan.com.au , Accessed: 11 Nov 2006
  • Poon , H. and Ahmad , M.F. 1998 . A material point time integration procedure for anisotropic, thermo rheologically simple, viscoelastic solids . Comput. Mech. , 21 : 236 – 242 .
  • Rivers , P.A. , Rosenwasser , M.P. , Mow , V.C. , Pawluk , R.J. , Strauch , R.J. , Sugalski , M.T. and Ateshian , G.A. 2000 . Osteoarthritic changes in the biochemical composition of thumb carpometacarpal joint cartilage and correlation with biomechanical properties . J. Hand Surg. , 25 : 889 – 898 .
  • Sanjeevi , R. , Somanathan , N. and Ramaswamy , D. 1982 . A viscoelastic model for collagen fibres . J. Biomech. , 15 : 181 – 183 .
  • Schwartz , M.H. , Leo , P.H. and Lewis , J.L. 1994 . A microstructural model for the elastic response of articular cartilage . J. Biomech. , 27 : 865 – 873 .
  • Silver , F.H. , Ebrahimi , A. and Snowhill , P.B. 2002 . Viscoelastic properties of self-assembled type I collagen fibers: molecular basis of elastic and viscous behaviors . Connect. Tissue Res. , 43 : 569 – 580 .
  • Simha , N.K. , Fedewa , M. , Leo , P.H. , Lewis , J.L. and Oegema , T. 1999 . A composites theory predicts the dependence of stiffness of cartilage culture tissues on collagen volume fraction . J. Biomech. , 32 : 503 – 509 .
  • Smolinski , D. , Wu , J.P. , Jones , C.W. , Zheng , M.-H. , O'Hara , L.J. , Miller , K. and Kirk , T.B. 2003 . The confocal arthroscope as a cartilage optical biopsy tool . Osteoarthritis Cartilage , 11 ( Supp A ) : S111 – S112 .
  • Z.A. Taylor, “Patient-specific models of cartilaginous tissues based on laser scanning confocal arthroscopy”, PhD thesis, University of Western Australia, 2006
  • Taylor , Z. and Miller , K. 2004 . Reassessment of brain elasticity for analysis of biomechanisms of hydrocephalus . J. Biomech. , 37 : 1263 – 1269 .
  • Taylor , Z. and Miller , K. 2005 . Using numerical approximation as an intermediate step in analytical derivations: some observations from biomechanics . J. Biomech. , 38 : 2497 – 2502 .
  • Taylor , Z.A. and Miller , K. 2006 . Constitutive modelling of cartilaginous tissues: A review . J. Appl. Biomech. , 22 : 212 – 229 .
  • Taylor , Z.A. , Kirk , T.B. and Miller , K. Confocal arthroscopy-based patient-specific constitutive models of cartilaginous tissues—II: prediction of reaction force history of meniscal cartilage specimens . Comput. Methods Biomech. Biomed. Engin. , in press
  • Toyras , J. , Laasanen , M.S. , Saarakkala , S. , Lammi , M.J. , Rieppo , J. , Kurkijarvi , J. , Lappalainen , R. and Jurvelin , J.S. 2003 . Speed of sound in normal and degenerated bovine articular cartilage . Ultrasound Med. Biol. , 29 : 447 – 454 .
  • Wang , J.L. , Parnianpour , M. , Shirazi-Adl , A. and Engin , A.E. 1997 . Failure criterion of collagen fiber: viscoelastic behavior simulated by using load control data . Theor. Appl. Fract. Mech. , 27 : 1 – 12 .
  • Williamson , A.K. , Chen , A.C. , Masuda , K. , Thonar , E.J.-M.A. and Sah , R.L. 2003 . Tensile mechanical properties of bovine articular cartilage: variations with growth and relationships to collagen network components . J. Orthop. Res. , 21 : 872 – 880 .
  • Wu , J.Z. and Herzog , W. 2002 . Elastic anisotropy of articular cartilage is associated with the microstructures of collagen fibers and chondrocytes . J. Biomech. , 35 : 931 – 942 .

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