15502-m-pleumeekers

89. Hauselmann, H.J., et al., Synthesis and turnover of proteoglycans by human and bovine adult articular chondrocytes cultured in alginate beads. Matrix, 1992. 12 (2): p. 116-29. 90. Brown, R.M., Jr., J.H. Willison, and C.L. Richardson, Cellulose biosynthesis in Acetobacter xylinum: visualization of the site of synthesis and direct measurement of the in vivo process. P Natl Acad Sci USA, 1976. 73 (12): p. 4565-9. 91. Backdahl, H., et al., Mechanical properties of bacterial cellulose and interactions with smooth muscle cells. Biomaterials, 2006. 27 (9): p. 2141-9. 92. Jozala, A.F., et al., Bacterial nanocellulose production and application: a 10-year overview. Appl Microbiol Biotechnol, 2016. 100 (5): p. 2063-72. 93. Badylak, S.F., D. Taylor, and K. Uygun, Whole-organ tissue engineering: decellularization and recellularization of three-dimensional matrix scaffolds. Annu Rev Biomed Eng, 2011. 13 : p. 27-53. 94. Ma, R., et al., Structural integrity, ECM components and immunogenicity of decellularized laryngeal scaffold with preserved cartilage. Biomaterials, 2013. 34 (7): p. 1790-8. 95. Baiguera, S., et al., Tissue engineered human tracheas for in vivo implantation. Biomaterials, 2010. 31 (34): p. 8931-8. 96. Macchiarini, P., et al., Clinical transplantation of a tissue-engineered airway. Lancet, 2008. 372 (9655): p. 2023-30. 97. Macchiarini, P., et al., First human transplantation of a bioengineered airway tissue. J Thorac Cardiovasc Surg, 2004. 128 (4): p. 638-41. 98. Laurance, J., British boy receives trachea transplant built with his own stem cells. BMJ, 2010. 340 : p. c1633. 99. Elliott, M.J., et al., Stem-cell-based, tissue engineered tracheal replacement in a child: a 2-year follow- up study. Lancet, 2012. 380 (9846): p. 994-1000. 100. Elder, B.D., D.H. Kim, and K.A. Athanasiou, Developing an articular cartilage decellularization process toward facet joint cartilage replacement. Neurosurgery, 2010. 66 (4): p. 722-7; discussion 727. 101. Kheir, E., et al., Development and characterization of an acellular porcine cartilage bone matrix for use in tissue engineering. J Biomed Mater Res A, 2011. 99 (2): p. 283-94. 102. Lumpkins, S.B., N. Pierre, and P.S. McFetridge, A mechanical evaluation of three decellularization methods in the design of a xenogeneic scaffold for tissue engineering the temporomandibular joint disc. Acta Biomaterialia, 2008. 4 (4): p. 808-816. 103. von Rechenberg, B., et al., Changes in subchondral bone in cartilage resurfacing--an experimental study in sheep using different types of osteochondral grafts. Osteoarthritis Cartilage, 2003. 11 (4): p. 265-77. 104. Chan, L.K., et al., Decellularized bovine intervertebral disc as a natural scaffold for xenogenic cell studies. Acta Biomater, 2013. 9 (2): p. 5262-72. 105. Mercuri, J.J., S.S. Gill, and D.T. Simionescu, Novel tissue-derived biomimetic scaffold for regenerating the human nucleus pulposus. J Biomed Mater Res A, 2011. 96 (2): p. 422-35. 106. Schwarz, S., et al., Decellularized Cartilage Matrix as a Novel Biomatrix for Cartilage Tissue-Engineering Applications. Tissue Engineering Part A, 2012. 18 (21-22): p. 2195-2209. 107. Stapleton, T.W., et al., Development and characterization of an acellular porcine medial meniscus for use in tissue engineering. Tissue Engineering Part A, 2008. 14 (4): p. 505-518. 108. Sandmann, G.H., et al., Generation and characterization of a human acellular meniscus scaffold for tissue engineering. J Biomed Mater Res A, 2009. 91 (2): p. 567-74. 109. Stabile, K.J., et al., An acellular, allograft-derived meniscus scaffold in an ovine model. Arthroscopy, 2010. 26 (7): p. 936-48. 110. Elsaesser, A.F., et al., In Vitro Cytotoxicity and In Vivo Effects of a Decellularized Xenogeneic Collagen Scaffold in Nasal Cartilage Repair. Tissue Eng Part A, 2014. 111. Wescoe, K.E., et al., The role of the biochemical and biophysical environment in chondrogenic stem cell differentiation assays and cartilage tissue engineering. Cell Biochem Biophys, 2008. 52 (2): p. 85-102. 112. Williams, G.M., S.M. Klisch, and R.L. Sah, Bioengineering cartilage growth, maturation, and form. Pediatr Res, 2008. 63 (5): p. 527-34. 113. Fortier, L.A., et al., The role of growth factors in cartilage repair. Clin Orthop Relat Res, 2011. 469 (10): p. 2706-15. 114. Jakob, M., et al., Specific growth factors during the expansion and redifferentiation of adult human articular chondrocytes enhance chondrogenesis and cartilaginous tissue formation in vitro. J Cell Biochem, 2001. 81 (2): p. 368-77. 115. van der Kraan, P.M., et al., Interaction of chondrocytes, extracellular matrix and growth factors: relevance for articular cartilage tissue engineering. Osteoarthritis Cartilage, 2002. 10 (8): p. 631-7. 207 REFERENCES

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