Alice Maroudas scite author profile

The metabolism of the canine nucleus pulposus was investigated at different oxygen tensions. It was found that even at high oxygen tensions the metabolism is mainly anaerobic, only approximately 1.5% of the glucose being converted to carbon dioxide. The concentration dependence of oxygen consumption is limited to very low oxygen tensions. Values of oxygen consumption and lactic acid production were used to calculate the concentration profiles of these substances within the nucleus pulposus, using a diffusion theory. The predicted concentration profiles were compared with the experimental measurements of concentration at various positions in the disc. The good agreement in these values found in the nucleus confirms that the main mechanism of metabolite transport is diffusion, and the main route of nutrient supply into the nucleus is via the endplate.

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Chemical composition and swelling of normal and osteoarthrotic femoral head cartilage. I. Chemical composition.

Venn¹,

Maroudas²

1977

Annals of the Rheumatic Diseases

477

269

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SUMMARY Radiochemical and biochemical methods were used to characterize post-mortem and osteoarthrotic femoral head cartilage. Fixed charge density measurements were correlated with glycosaminoglycan content as estimated by uronic acid and hexosamine analyses. In post-mortem cartilage water content decreased from a maximum at the surface to a minimum in the deep zones. In the osteoarthrotic specimens water content was greatest in the middle zones. Glycosaminoglycan content increased with depth and in the osteoarthrotic specimens was reduced throughout the depth of the cartilage. With increasing degeneration there was an increase in water content and decrease in glycosaminoglycan content. The difference in the water content profile in osteoarthrotic cartilage was explained in terms of damage to the collagen network. In osteoarthrosis the latter is no longer capable of restraining the swelling pressure produced by the glycosaminoglycans and swelling is greatest in the midzones, where glycosaminoglycan content is highest.Topographical variations in the total glycosaminoglycan content of human cartilage has been studied using the fixed charge density (FCD) method in post-mortem specimens of the hip (Maroudas et al., 1973) and knee (Ficat and Maroudas, 1975). FCD measurements have been correlated with biochemical analyses for cartilage of the human femoral condyle (Maroudas et al., 1969). Chondroitin sulphate showed small variations with depth but keratan sulphate content increased with depth from the surface. Chemical analyses have also been correlated with the distribution of histochemical staining (Stockwell and Scott, 1967). A similar distribution pattern has been described for bovine knee cartilage when the glycosaminoglycans were separated as their macromolecules (Lemperg et al., 1974).The aims of the present study were first to confirm that the FCD as measured by the tracer cation method (Maroudas and Thomas, 1970;Maroudas et al., 1973) agreed over a wide range of concentrations with the values calculated from chemical determinations of uronic acid and hexosamine, and second, to compare topographical variations in the

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Ageing and zonal variation in post-translational modification of collagen in normal human articular cartilage: The age-related increase in non-enzymatic glycation affects biomechanical properties of cartilage

Bank¹,

Bayliss

Lafeber³

et al. 1998

315

250

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A biomechanical failure of the collagen network is postulated in many hypotheses of the development of osteoarthritis with advancing age. Here we investigate the accumulation of non-enzymatic glycation (NEG) products in healthy human articular cartilage, its relation to tissue remodelling and its role in tissue stiffening. Pentosidine levels were low up to age 20 years, and increased linearly after this age. This indicates extensive tissue remodelling at young age, and slow turnover of collagen after maturity has been reached. The slow remodelling is supported by the finding that enzymatic modifications of collagen (hydroxylysine, hydroxylysylpyridinoline, and lysylpyridinoline) were not related to age. The high remodelling is supported by levels of the crosslink lysylpyridinoline (LP) as a function of distance from the articular surface. LP was highest at the surface in mature cartilage (>20 years), whereas in young cartilage (<10 years) the opposite was seen; highest levels were close to the bone. LP levels in cartilage sections at age 14 years are high at the surface and close to the bone, but they are low in the middle region. This indicates that maturation of cartilage in the second decade of life starts in the upper half of the tissue, and occurs last in the tissue close to the bone. The effect of NEG products on instantaneous deformation of cartilage was investigated as a functional of topographical variations in pentosidine levels in vivo and in relation to in vitro induced NEG. Consistently, higher pentosidine levels were associated with a stiffer collagen network. A stiffer and more crosslinked collagen network may become more brittle and more prone to fatigue.

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Mechanical Properties of the Collagen Network in Human Articular Cartilage as Measured by Osmotic Stress Technique

Basser

Schneiderman

Bank³

et al. 1998

Archives of Biochemistry and Biophysics

249

241

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Alice Maroudas

Variations in the Physico-Chemical and Mechanical Properties of Human Articular Cartilage

Nutrition of the Intervertebral Disc: Solute Transport and Metabolism

Chemical composition and swelling of normal and osteoarthrotic femoral head cartilage. I. Chemical composition.

Ageing and zonal variation in post-translational modification of collagen in normal human articular cartilage: The age-related increase in non-enzymatic glycation affects biomechanical properties of cartilage

Mechanical Properties of the Collagen Network in Human Articular Cartilage as Measured by Osmotic Stress Technique

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