[1]
Horvai A. Anatomy and histology of cartilage.cartilage imaging significance, techniques and new developments. New York: Springer 2011; pp. 1-10.
[2]
Meyer U, Weissman HP. Bone and cartilage engineering Berlin, Heidelberg: Springer Verlag 2006.
[3]
Hall BK. Bones and cartilage developmental and evolutionary skeletal biology. London: Academic Press, Elsevier 2015.
[8]
Periyasamy PC, et al. Nanomaterials for the local and targeted delivery of osteoarthritis drugs. J Nanomater 2012; 2012: 13.
[16]
Walsh WR, et al. Cell structure and biology of bone and cartilage. Handbook of Histology Methods for Bone and Cartilage, YH An and K. Totowa, New Jersey: Humana Press Inc 2003; pp. 36-58.
[33]
Bullough P. Joints.Histology for pathologists. Philadelphia: Lippincott Williams & Wilkins 2007; pp. 97-122.
[41]
Loeser RF. Chondrocyte integrin expression and function Biorheology 2000 37(1, 2): 109-16.
[48]
Sabatini M, Pastoureau P, De Ceuninck F. Cartilage and Osteoarthritis Cellular and molecular tools Methods in Molecular Medicine. Totowa, New Jersey: Humana Press Inc. 2004; Vol. 1: P. 374.
[57]
Roach HI, Tilley S. The pathogenesis of osteoarthritis. Bone Osteoarth 2007; 4: 1-18.
[62]
Osteoarthritis: A Serious Disease.Osteoarthritis Research Society International. USA: US Food and Drug Administration 2016; pp. 1- 103.
[70]
Burden of Musculoskeletal Conditions at the Start of the New Millennium. Geneva: World Health Organization 2000; pp. 1-231.
[98]
Labusca L, Zugun-Eloae F. Stem Cell Therapy for the Treatment of Cartilage Defects and Osteoarthritis. In: Stem Cells in Clinical Applications: Bone and Cartilage Regeneration, P.V. Pham, Editor. Springer International Publishing, Springer Nature: Switzerland 2016; p. 11-46.
[101]
Park J, Lakes RS. Biomaterials: An introduction. New York: Springer Science & Business Media 2007; p. 563.
[102]
Ratner BD. Biomaterials science: A multidisciplinary endeavor. Biomaterials science: An introduction to materials in medicine. San Diego, London: Elsevier 2004; pp. 1-19.
[103]
Shukla SK. Nanostructure polymers in function generating substitute and organ transplants in Nanomaterials in Drug Delivery, Imaging, and Tissue Engineering, A. Tiwari and A. Tiwari, Editors.John Wiley & Sons, and Scrivener Publishing LLC: Hoboken, New Jersey, and Salem, Massachusetts. 2013; pp. 397-423.
[104]
Kim NJ, Lee SJ, Atala A. Biomedical nanomaterials in tissue engineering, in Nanomaterials in tissue engineering. Woodhead Publishing Limited: Sawston, Cambridge. 2013; 1-23, 24e-25e.
[160]
Sehgal RR, Banerjee R. Fabrication of nanomaterials for growth factor delivery in tissue engineering, in Nanomaterials in tissue engineering, A.K. Gaharwar, et al., Editors. Woodhead Publishing Limited: Sawston, Cambridge 2013; pp. 183-226.
[167]
Ferruzzi A, Bud R, Faldini C, et al. Autologous Chondrocyte Implantation in the Knee Joint: Open Compared with Arthroscopic Technique: Comparison at a Minimum Follow-up of Five Years. J Bone Joint Surg Am 2008; 90(Supplement_4): 90-101.