Influence of cyclic loading on the nutrition of articular cartilage.

Articular cartilage is avascular. Nutrients are transported to the cells mainly by diffusion from the synovial fluid. Nutrient transport is also sometimes thought to be assisted by movement of fluid in and out of cartilage in response to cyclic loading of the tissue ('pumping'). The influence of pumping on transport of solutes through cartilage was measured by subjecting plugs of human femoral head cartilage immersed in medium containing radioactive solutes to a simulated walking cycle of 2.8 MPa at 1 Hz. The rate of absorption or desorption of tracers from the cycled plugs was compared with that of unloaded control plugs. For small solutes (urea, NaI) fluid transport did not affect the rate of solute transport significantly. Most major nutrients, such as glucose and oxygen, are small solutes and thus nutrition should not be affected by pumping. The rate of desorption of a large solute (serum albumin), however, was increased by 30-100% in plugs subjected to cyclic loading.

[1]  A. Maroudas,et al.  Chemical composition and swelling of normal and osteoarthrotic femoral head cartilage. II. Swelling. , 1977, Annals of the rheumatic diseases.

[2]  A. Maroudas,et al.  A simple physicochemical micromethod for determining fixed anionic groups in connective tissue. , 1970, Biochimica et biophysica acta.

[3]  S Holm,et al.  Nutrition of the intervertebral disc: effect of fluid flow on solute transport. , 1982, Clinical orthopaedics and related research.

[4]  A. Maroudas,et al.  Chemical composition and swelling of normal and osteoarthrotic femoral head cartilage. I. Chemical composition. , 1977, Annals of the rheumatic diseases.

[5]  T. K. Goldstick,et al.  Dynamics of water transport in swelling membranes. , 1965, Journal of colloid science.

[6]  A. Maroudas,et al.  Transport of solutes through cartilage: permeability to large molecules. , 1976, Journal of anatomy.

[7]  E. M. Renkin,et al.  Mechanics and thermodynamics of transcapillary exchange , 1984 .

[8]  J. Westwater,et al.  The Mathematics of Diffusion. , 1957 .

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

[10]  P. Bullough,et al.  Permeability of articular cartilage. , 1968, Nature.

[11]  F. Greenwood,et al.  Preparation of Iodine-131 Labelled Human Growth Hormone of High Specific Activity , 1962, Nature.

[12]  J. Tyler Chondrocyte-mediated depletion of articular cartilage proteoglycans in vitro. , 1985, The Biochemical journal.

[13]  A. Maroudas,et al.  The distribution of serum albumin in human normal and degenerate articular cartilage. , 1976, Biochimica et biophysica acta.

[14]  B Weightman,et al.  Tensile fatigue of human articular cartilage. , 1976, Journal of biomechanics.

[15]  A R Hargens,et al.  Intervertebral disc nutrition. Diffusion versus convection. , 1986, Clinical orthopaedics and related research.

[16]  A. Maroudas Distribution and diffusion of solutes in articular cartilage. , 1970, Biophysical journal.