Articular chondrocytes in culture. Matrix production and hormonal effects

For osteochondral allograft transplantation to be successful, chondrocytes must survive preservation and retain their capacity to produce normal matrix components: proteoglycans and Type I1 collagen. Clinical success with osteochondral allograft transplantation has created an increased demand for su

Addition of human, recombinant interleukin-1 p (hrlL-1 p) to cultures of lapine articular chondrocytes provoked a delayed increase in the production of both nitric oxide (NO) and lactate. These two phenomena followed a similar time course and shared a parallel dose-response sensitivity to hrlL-1 p.

Articular chondrocytes in primary monolayers or subcultures synthesize sulfated macromolecules, presumably mucopolysaccharides. lntracellular 3%04 incorporation by postnatal rabbit chondrocytes reached a steady level by 24 hr of incubation; the nondialyzable extracellular (centrifuged medium + tryps

## Abstract Tenascin‐C is an oligomeric glycoprotein of the extracellular matrix that is expressed in a variety of processes including development, tissue remodeling, wound healing, cell adhesion/antiadhesion, and cell/matrix interactions. Tenascin has recently been acknowledged as a component of t

## Abstract Articular cartilage has a limited capacity for self‐repair after damage. Engineered cartilage is a promising treatment to replace or repair damaged tissue. The growth of engineered cartilage is sensitive to the extracellular culture environment. Chondrocytes were seeded into alginate be