Creep behavior of the intact and meniscectomy knee joints.

The mechanical functions of the menisci may be partially performed through the fluid pressurization in articular cartilages and menisci. This creep behavior has not been investigated in whole knee joint modeling. A three-dimensional finite element knee model was employed in the present study to explore the fluid-flow dependent creep behaviors of normal and meniscectomy knees. The model included distal femur, tibia, fibula, articular cartilages, menisci and four major ligaments. Articular cartilage or meniscus was modeled as a fluid-saturated solid matrix reinforced by a nonlinear orthotropic and site-specific collagen network. A 300 N compressive force, equal to half of body weight, was applied to the knee in full extension followed by creep. The results showed that the fluid pressurization played a substantial role in joint contact mechanics. Menisci bore more loading as creep developed, leading to decreased stresses in cartilages. The removal of menisci not only changed the stresses in the cartilages, which was in agreement with published studies, but also altered the distribution and the rate of dissipation of fluid pressure in the cartilages. The high fluid pressures in the femoral cartilage moved from anterior to more central regions of the condyles after total meniscectomy. For both intact and meniscectomy joints, the fluid pressure level remained considerably high for thousands of seconds during creep, which lasted even longer after meniscectomy. For the femoral cartilage, the maximum principal stress was generally in agreement with the fiber direction, which indicated the essential role of fibers in load support of the tissue.

[1]  Ming Zhang,et al.  Three-dimensional finite element analysis of the foot during standing--a material sensitivity study. , 2005, Journal of biomechanics.

[2]  A Shirazi-Adl,et al.  Nonlinear analysis of cartilage in unconfined ramp compression using a fibril reinforced poroelastic model. , 1999, Clinical biomechanics.

[3]  A V Swan,et al.  Late degenerative changes after meniscectomy. Factors affecting the knee after operation. , 1984, The Journal of bone and joint surgery. British volume.

[4]  B Calvo,et al.  Finite element analysis of the effect of meniscal tears and meniscectomies on human knee biomechanics. , 2005, Clinical biomechanics.

[5]  R. Burks,et al.  Fifteen-year follow-up of arthroscopic partial meniscectomy. , 1997, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[6]  A. M. Ahmed,et al.  In-vitro measurement of static pressure distribution in synovial joints--Part II: Retropatellar surface. , 1983, Journal of biomechanical engineering.

[7]  L. P. Li,et al.  A human knee joint model considering fluid pressure and fiber orientation in cartilages and menisci. , 2011, Medical engineering & physics.

[8]  T. Drobný,et al.  Arthroscopic partial meniscectomy in patients over 70 years of age. , 2001, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[9]  LePing Li,et al.  Three-dimensional fibril-reinforced finite element model of articular cartilage , 2009, Medical & Biological Engineering & Computing.

[10]  Walter Herzog,et al.  An improved solution for the contact of two biphasic cartilage layers , 1997 .

[11]  Mats G. Larson,et al.  The Finite Element Method: Theory, Implementation, and Applications , 2013 .

[12]  W M Lai,et al.  An asymptotic solution for the contact of two biphasic cartilage layers. , 1994, Journal of biomechanics.

[13]  M Doblaré,et al.  An accurate simulation model of anteriorly displaced TMJ discs with and without reduction. , 2007, Medical engineering & physics.

[14]  M. Hull,et al.  A finite element model of the human knee joint for the study of tibio-femoral contact. , 2002, Journal of biomechanical engineering.

[15]  W Herzog,et al.  Fluid pressure driven fibril reinforcement in creep and relaxation tests of articular cartilage. , 2008, Medical engineering & physics.

[16]  R. Aspden,et al.  Collagen orientations in the meniscus of the knee joint. , 1985, Journal of anatomy.

[17]  A F Mak,et al.  The apparent viscoelastic behavior of articular cartilage--the contributions from the intrinsic matrix viscoelasticity and interstitial fluid flows. , 1986, Journal of biomechanical engineering.

[18]  V C Mow,et al.  A transversely isotropic biphasic finite element model of the meniscus. , 1992, Journal of biomechanics.

[19]  R. Warren,et al.  The effect of lateral meniscectomy on motion of the knee. , 1989, The Journal of bone and joint surgery. American volume.

[20]  E. Roos,et al.  Knee osteoarthritis after meniscectomy: prevalence of radiographic changes after twenty-one years, compared with matched controls. , 1998, Arthritis and rheumatism.

[21]  Savio Lau-Yuen Woo,et al.  Biomechanics of diarthrodial joints , 1990 .

[22]  Dale M. Daniel,et al.  Knee Ligaments: Structure, Function, Injury, and Repair , 1991 .

[23]  W M Lai,et al.  An analysis of the unconfined compression of articular cartilage. , 1984, Journal of biomechanical engineering.

[24]  S L Woo,et al.  A validated three-dimensional computational model of a human knee joint. , 1999, Journal of biomechanical engineering.

[25]  E S Grood,et al.  An analytical technique for modeling knee joint stiffness--Part II: Ligamentous geometric nonlinearities. , 1983, Journal of biomechanical engineering.

[26]  Y. Fung,et al.  Biomechanics: Mechanical Properties of Living Tissues , 1981 .

[27]  M S Hefzy,et al.  An analytical technique for modeling knee joint stiffness--Part I: Ligamentous forces. , 1982, Journal of biomechanical engineering.

[28]  M. Kjaer,et al.  Mechanical properties of the human patellar tendon, in vivo. , 2006, Clinical biomechanics.

[29]  J M T Penrose,et al.  Development of An Accurate Three-dimensional Finite Element Knee Model , 2002, Computer methods in biomechanics and biomedical engineering.

[30]  E M Tapper,et al.  Late results after meniscectomy. , 1969, The Journal of bone and joint surgery. American volume.

[31]  N. D. Weiss,et al.  Knee Ligaments: Structure, Function, Injury, and Repair , 1991, The Yale Journal of Biology and Medicine.

[32]  W. Glinz [Arthroscopic partial meniscectomy]. , 1980, Helvetica chirurgica acta.

[33]  V. Mow,et al.  Biphasic creep and stress relaxation of articular cartilage in compression? Theory and experiments. , 1980, Journal of biomechanical engineering.

[34]  Farshid Guilak,et al.  Compressive properties of mouse articular cartilage determined in a novel micro-indentation test method and biphasic finite element model. , 2006, Journal of biomechanical engineering.

[35]  A Shirazi-Adl,et al.  Strain-rate dependent stiffness of articular cartilage in unconfined compression. , 2003, Journal of biomechanical engineering.

[36]  M. Bendjaballah,et al.  Biomechanics of the human knee joint in compression: reconstruction, mesh generation and finite element analysis , 1995 .

[37]  B. Bai,et al.  Effect of Articular Step-off and Meniscectomy on Joint Alignment and Contact Pressures for Fractures of the Lateral Tibial Plateau , 2001, Journal of orthopaedic trauma.

[38]  N. Shrive,et al.  Load-bearing in the knee joint. , 1978, Clinical orthopaedics and related research.

[39]  S. Cowin,et al.  Biomechanics: Mechanical Properties of Living Tissues, 2nd ed. , 1994 .

[40]  Leena Sharma,et al.  The influence of alignment on risk of knee osteoarthritis progression according to baseline stage of disease. , 2002, Arthritis and rheumatism.

[41]  S. Woo,et al.  Measurements of nonhomogeneous, directional mechanical properties of articular cartilage in tension. , 1976, Journal of biomechanics.

[42]  W. Hutton,et al.  Tensile properties of fresh human calcaneal (achilles) tendons , 2004, Clinical anatomy.

[43]  N. Choi,et al.  Tensile and viscoelastic properties of human patellar tendon , 1994, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[44]  T. Fairbank Knee joint changes after meniscectomy. , 1948, The Journal of bone and joint surgery. British volume.

[45]  J. Dodds,et al.  The split-line pattern of the distal femur: A consideration in the orientation of autologous cartilage grafts. , 2002, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[46]  A Shirazi-Adl,et al.  Analysis of partial meniscectomy and ACL reconstruction in knee joint biomechanics under a combined loading. , 2009, Clinical biomechanics.

[47]  R Huiskes,et al.  Stresses in the local collagen network of articular cartilage: a poroviscoelastic fibril-reinforced finite element study. , 2004, Journal of biomechanics.

[48]  G A Ateshian,et al.  Biomechanics of diarthrodial joints: a review of twenty years of progress. , 1993, Journal of biomechanical engineering.

[49]  J. Jackson,et al.  Degenerative changes in the knee after meniscectomy. , 1968, British medical journal.

[50]  A Shirazi-Adl,et al.  Role of cartilage collagen fibrils networks in knee joint biomechanics under compression. , 2008, Journal of biomechanics.

[51]  S. Hirokawa,et al.  Three-dimensional deformation and stress distribution in an analytical/computational model of the anterior cruciate ligament. , 2000, Journal of biomechanics.

[52]  Miguel Ángel Martínez,et al.  A three-dimensional finite element analysis of the combined behavior of ligaments and menisci in the healthy human knee joint. , 2006, Journal of biomechanics.

[53]  T. Fukubayashi,et al.  Load-bearing mode of the knee joint: physical behavior of the knee joint with or without menisci. , 1980, Clinical orthopaedics and related research.

[54]  M. McNicholas,et al.  Total meniscectomy in adolescents: a 40-year follow-up. , 2012, The Journal of bone and joint surgery. British volume.

[55]  Manuel Doblaré,et al.  Computer simulation of damage on distal femoral articular cartilage after meniscectomies , 2008, Comput. Biol. Medicine.

[56]  V. Distefano Function, post-traumatic sequelae and current concepts of management of knee meniscus injuries: a review article. , 1980, Clinical orthopaedics and related research.