Journal
OSTEOARTHRITIS AND CARTILAGE
Volume 18, Issue 12, Pages 1577-1585Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.joca.2010.09.003
Keywords
Articular cartilage; Engineered cartilage; Injury; Chondrocytes; Apoptosis
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Funding
- National Institute of Arthritis, Musculoskeletal and Skin Diseases of the U.S. National Institutes of Health [AR46568]
- National Science Foundation
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Injury to articular cartilage leads to degenerative changes resulting in a loss of mechanical and biochemical properties. In engineered cartilage, the injury response of developing constructs is unclear. Objective: To characterize the cellular response of tissue-engineered constructs cultured in chemically-defined medium after mechanical insult, either by compression-induced cracking, or by cutting, as a function of construct maturity. Methods: Primary immature bovine articular chondrocytes (4-6 weeks) were encapsulated in agarose hydrogel (2%, 30 million cells/mL) and cultured in chemically-defined medium supplemented with Transforming growth factor (TGF)-beta 3 (10 ng/mL, first 2 weeks). At early (5 days) and late (35 days) times in culture, subsets of constructs were exposed to mechanical overload to produce a crack in the tissue or were exposed to a sharp wound with a perpendicular cut. Constructs were returned to culture and allowed to recover in static conditions. Mechanical and biochemical properties were evaluated at 2-week intervals to day 70, and cellular viability was assessed at 2-week intervals to day 85. Results: Constructs injured early in culture recovered their mechanical stiffness back to control values, regardless of the mode of injury. Later in culture, when constructs exhibited properties similar to those of native cartilage, compression-induced cracking catastrophically damaged the bulk matrix of the tissue and resulted in permanent mechanical failure with persistent cell death. No such detrimental outcomes were observed with cutting. Biochemical content was similar across all groups irrespective of mode or time of injury. Conclusions: Unlike native cartilage, engineered cartilage constructs exhibit a reparative capacity when the bulk integrity of the developing tissue is preserved after injury. Published by Elsevier Ltd on behalf of Osteoarthritis Research Society International.
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