AI Article Synopsis
- Articular cartilage defects can worsen over time, often leading to arthritis, and current treatment strategies have not fully restored cartilage to its original state.
- Researchers investigated the effects of different biomaterials (agarose, alginate, type I collagen) on cartilage cell behavior and found that agarose and alginate significantly boosted cartilage-specific markers compared to collagen gel.
- In an experiment with rabbit models, alginate beads containing stromal cells effectively filled cartilage defects, showed signs of functional regeneration, and had good integration with surrounding tissue, demonstrating their potential for cartilage repair.
Article Abstract
Articular cartilage defects of sufficient size ultimately degenerate with time, leading to arthritic changes. Numerous strategies have been used to address full-thickness cartilage defects, yet none thus far has been successful in restoring the articular surface to its preinjury state. We compared the effects of agarose, alginate, and type I collagen gels on the expression of cartilage-specific markers from rabbit marrow stromal cells and then assessed the in vivo effects of cells seeded in alginate beads on the repair of full-thickness osteochondral defects in the rabbit model. Marrow aspirates from rabbits were cultured and the stromal population selected. Marrow stromal cells were then placed in either 1.2% w/v alginate, type I collagen gels (3 mg/mL), or 0.5% agarose suspension culture. After 2, 5, 10, and 20 days in culture, the RNA was extracted and analyzed by reverse transcription polymerase chain reaction for the cartilage-specific markers aggrecan and type II collagen. The strongest increase in aggrecan and type II collagen gene expression was found in the agarose suspension followed by alginate; type I collagen gels induced the lowest levels. Alginate beads were chondrogenic and maintained their size and consistency over time in culture, whereas the cell-seeded collagen gels invariably contracted. Full-thickness defects measuring 3 x 6 mm x 3 mm deep were then created in the medial femoral condyles of rabbit knees and filled with alginate beads, alginate beads seeded with stromal cells, or left empty. Alginate beads containing stromal cells remained within the defects and progressively filled the defects with regenerate tissue. Histologic analysis showed viable, phenotypically chondrogenic cells in the defects. The matrix stained positive with safranin O, indicating proteoglycan synthesis, and bonding between the regenerate and host tissue was excellent. We have shown quantitative differences in the chondrogenic effects of the biomaterials tested. Alginate induces the chondrogenic phenotype in marrow stromal cells in vitro, and possesses the necessary physical characteristics and handling properties to support cells and serve as a carrier to fill full-thickness osteochondral defects in vivo.
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| http://dx.doi.org/10.1053/jars.2000.4827 | DOI Listing |
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