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Caplan, A.I. and Bruder, S.P. (1997) Cell and molecular engineering for bone regeneration, in Lanza, R.P, Langer, R., and Chick, W.L., eds., Principles of Tissue Engineering, p. 603–618.
Chu, T-M and Halloran, J.W., (1997) “Hydroxyapatite for Implant Fabrication by Stereolithography”, Case Studies of Ceramic Product Development, Manufacturing, and Commercialization, Edited by Asish Ghosh, Basavaraj Hiremath, and Ronald Barks, Ceramic Transactions Vol. 75, American Ceramic Soc. Westerville, OH.
Chu, T.-M., Halloran, J.W., Wagner, W.C., (1995) “Ultraviolet Curing of Highly Loaded Hydroxyapatite Suspension”, in Bioceramics: Materials and Applications, ed. R.P Rusin and G. S. Fishman, Ceramic Transactions Vol.65 p. 57–66
Giordano, R.A., B.M. Wu, S.W. Borland, L.G. Griffith-Cima, E.M. Sachs, and M.J. Cima, (1996) Mechanical properties of dense polylactic acid structures fabricated by three dimensional printing, J. Biomed. Mat. Sci., Polymer Ed., 8, 63–72.
Griffith, M.L. and Halloran, J.W., (1996) “Free Form Fabrication of Ceramics via Stereolithography”. J. American Ceramic Soc. 79[10], p. 2601–2608
Hollister, S.J., Chu, T.M., Guldberg, R.E., Zysset, P.K., Feinberg, S.E., Halloran, J.W., Levy, R.A. (1998) Design and manufacture of HA biomaterial scaffold for bone tissue engineering, Trans. 44th Orthopaedic Research Society, p. 423.
Hollister, S.J., Levy, R.A., Chu, T-M.G., Halloran, J.W. 1997) Design and Manufacture of an Orbital Floor Scaffold using Image Processing and Rapid Prototy**, BED-Vol 35, ASME Bioengineering Conference, p. 391–392.
Levy, R.A., Chu, T.M.G., Halloran, J.W., Feinberg, S.E., and Hollister, S.J. (1997) Computed Tomography-Generated Porous Hydroxyapatite Orbital Floor Prosthesis as a Prototype Bioimplant, American Journal of Neuroradiology., 18: 1522–1525.
Park, A., B. Wu, and L.G. Griffith, (1998) Integration of surface modification and 3D fabrication techniques to prepare patterned poly(L-lactide) scaffolds allowing regionally selective cell adhesion. J. Biomat. Sci., Polymer Edition, 9:89–110.
Tsuruga, E., Takita, H, Itoh, H., Wakisaka, Y., and Kuboki, Y. (1997) Pore size of porous hydroxyapatite as the cell-substratum controls BMP-induced osteogenesis, J. Biochemistry, 121:317–24
Vacanti, C.A. and Vacanti, J.P. (1997) Bone and cartilage reconstruction, in Lanza, R.P, Langer, R., and Chick, W.L., eds., Principles of Tissue Engineering, p. 619–638.
Zysset, P.K., Marsan, A.L., Chu, T-M.G., Guldberg, R.E., Halloran, J.W., Hollister, S.J. (1997) Rapid Prototy** of Trabecular Bone for Mechanical Testing, BED-Vol 35, ASME Bioengineering Conference, p. 387–388.
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Hollister, S.J. et al. (1999). Image Based Design and Manufacture of Scaffolds for Bone Reconstruction. In: Pedersen, P., Bendsøe, M.P. (eds) IUTAM Symposium on Synthesis in Bio Solid Mechanics. Solid Mechanics and its Applications, vol 69. Springer, Dordrecht. https://doi.org/10.1007/0-306-46939-1_15
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DOI: https://doi.org/10.1007/0-306-46939-1_15
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