References
- Shapiro F, Koide S, Glimcher MJ. Cell origin and differentiation in the repair of full-thickness defects of articular cartilage. J Bone Joint Surg [Am] 1993; 75A: 532–53
- Huibregtse BA, Johnstone B, Caplan AI, et al. Natural repair of full-thickness osteochondrial defects in growing and mature rabbits. Trans Orthop Res Soc 1998; 23: 796
- Solchaga LA, Dennis JE, Goldberg VM, et al. Hyaluronic acid-based polymers as cell carriers for tissue-engineered repair of bone and cartilage. J Orthop Res 1999; 17: 205–13
- Pittenger MF, Mackay AM, Beck SC, et al. Multilineage potential of adult human mesenchymal stem cells. Science 1999; 284: 143–7
- Wakitani S, Goto T, Pineda SJ, et al. Mesenchymal cell-based repair of large, full-thickness defects of articular cartilage. J Bone Joint Surg [Am] 1994; 76A: 579–92
- Gao J, Dennis JE, Solchaga LA, et al. Repair of osteochondral defect with tissue-engineered two-phase composite material of injectable calcium phosphate and hyaluronan sponge. Tissue Eng 2002; 8: 827–37
- Mankin HJ. The reaction of articular cartilage to injury and osteoarthritis. N Engl J Med 1974; 291: 1285–92
- Mankin HJ. The response of articular cartilage to mesenchymal injury. J Bone Joint Surg [Am] 1982; 64-A: 460–6
- Caplan A I. Mesenchymal stem cells. J Orthop Res 1991; 9: 641–50
- Im G, Kim D, Shin J, et al. Repair of cartilage defect in the rabbit with cultured mesenchymal stem cells from bone marrow. J Bone Joint Surg [Br] 2001; 83B: 289–94
- Solchaga LA, Yoo JU, Lundberg M, et al. Hyaluronan-based polymers in the treatment of osteochondral defects. J Orthop Res 2000; 18: 773–80
- Gao J, Dennis JE, Solchaga LA, et al. Tissue-engineered fabrication of an osteochondral composite graft using rat bone marrow-derived mesenchymal stem cells. Tissue Eng 2001; 7: 363–71
- Grigolo B, Roseti L, Fiorini M, et al. Transplantation of chondrocytes seeded on a hyaluronan derivative (Hyaff-11) into cartilage defects in rabbits. Biomaterials 2001; 22: 2417–24
- Nehrer S, Breinan HA, Ramappa A, et al. Chondrocyte-seeded collagen matrices implanted in a chondral defect in a canine model. Biomaterials 1998; 19: 2313–28
- Wakitani S, Goto T, Yonug RG, et al. Repair of large full-thickness articular cartilage defects with allograft articular chondrocytes embedded in a collage gel. Tissue Eng 1998; 4: 429–44
- Grigolo B, Franceschi LD, Roseti L, et al. Down regulation of degenerative cartilage molecules in chondrocytes grown on a hyaluronan-based scaffold. Biomaterials 2005; 26: 5668–76
- Goldberg VM, Solchaga LA, Lundberg M, et al. Regenerative cell-based repair of osteochondral defects of articular cartilage. Sem Arthroplasty 1999; 10: 30–6
- Aigner J, Tegeler J, Hutzer P, et al. Cartilage tissue engineering with novel nonwoven structured biomaterial based on hyaluronic acid benzyl ester. J Biomed Mater Res 1998; 42: 172–81
- Tsutsumi S, Shimazu A, Miyazaki K, et al. Retention of multilineage differentiation potential of mesenchymal cells during proliferation in response to FGF. Biochem Biophys Res Commun 2001; 288: 413–19
- Kikuchi T, Yamada H, Shimmei M. Effect of high molecular weight hyaluronan on cartilage degeneration in a rabbit model of osteoarthritis. Osteoarth Cart 1996; 4: 99–110
- Himeda Y, Yanagi S, Takema T, et al. Adhesion preventive effect of a novel hyaluronic acid gel film in rats. J Int Med Res 2003; 31: 509–16
- Sabo D, Brocai DRC, Eble M, et al. Influence of extracorporeal irradiation on the reintegration of autologous grafts of bone and joint. J Bone Joint Surg [Br] 2000; 82B: 276–82
- Tibesku CO, Szuwart T, Ocken SA, et al. Increase in the expression of the transmembrane surface receptor CD44v6 on chondrocytes in animals with osteoarthritis. Arthritis Rheum 2005; 52: 810–17
- Hashimoto S, Takahashi S, Amiel D, et al. Chondrocyte apoptosis and nitric oxide production during experimentally induced osteoarthritis. Arthritis Rheum 1998; 41: 1266–74
- Aruffo A, Stamenkovic I, Melnick M, et al. CD44 is the principal cell surface receptor for hyaluronate. Cell 1990; 61: 1303–13
- Knudson CB, Knudson W. Hyaluronan and CD44. Clin Orthop Related Res 2004; 427S: S152–62
- Ostergaard K, Salter DM, Andersen CB, et al. CD44 expression is up-regulated in the deep zone of osteoarthritic cartilage from human femoral heads. Histopathology 1997; 31: 451–9
- Salter DM, Godolphin JL, Gourlay MS, et al. Analysis of human articular chondrocyte CD44 isoform expression and function in health and disease. J Pathol 1996; 179: 396–402
- Gigant-Huselstein C, Hubert P, Dumas D, et al. Expression of adhesion molecules and collagen on rat chondrocytes seeded into alginate and hyaluronate based 3D biosystems. Influence of mechanical stresses. Biorheology 2004; 41: 423–31
- Maniwa S, Ochi M, Motomura T. Effects of hyaluronic acid and basic fibroblast growth factor on motility of chondrocytes and synovial cells in culture. Acta Orthop Scand 2001; 72: 299–303