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NTIS 바로가기한국세라믹학회지 = Journal of the Korean Ceramic Society, v.48 no.5, 2011년, pp.390 - 395
Moon, Dae-Hee (Department of Nanomedical Engineering, Pusan National University) , Ryu, Su-Chak (Department of Nanomedical Engineering, Pusan National University)
The objective of our study was to produce an imitation bone material consisting of hydroxyapatite with a compact and spongy structure. This study shows the ideal content of
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J. A. Hubbell, "Biomaterials in Tissue Engineering," Nat Biotech, 13 [6] 565-76 (1995).
Langer R and Vacanti JP, "Tissue Engineering," Science, 260 [5110] 920-26 (1993).
W. W. Minuth, M. Sittinger, and S. Kloth, "Tissue Engineering: Generation of Differentiated Artificial Tissues for Biomedical Applications," Cell and Tissue Research, 291 [1] 1-11 (1997).
R. B. Martin, "Bone as a Ceramic Composite Material," Materials Science Forum, 293 5-16 (1999).
C. R. Nunes, S. J. Simske, R. Sachdeva, and L. M. Wolford, "Long-term Ingrowth and Apposition of Porous Hydroxylapatite Implants," J. Biomed. Mater. Res., 36 [4] 560-63 (1997).
H. Yoshikawa and A. Myoui,"Bone Tissue Engineering with Porous Hydroxyapatite Ceramics," J. Artificial Organs, 8 [3] 131-36 (2005).
E. A. Monroe, W. Votava, D. B. Bass, and J. M. Mullen, "New Calcium Phosphate Ceramic Material for Bone and Tooth Implants," J. Dental Research, 50 [4] 860-61 (1971).
N. Tamai, A. Myoui, T. Tomita, T. Nakase, J. Tanaka, T. Ochi, and H. Yoshikawa, "Novel Hydroxyapatite Ceramics with an Interconnective Porous Structure Exhibit Superior Osteoconduction in Vivo," J. Biomed. Mater. Res., 59 [1] 110-17 (2002).
S. R. Levitt, P. H. Crayton, E. A. Monroe, and R. A. Condrate, "Forming Method for Apatite Prostheses," J. Biomed. Mater. Res., 3 [4] 683-84 (1969).
M. Ogiso, "Reassessment of Long-term use of Dense HA as Dental Implant: Case Report," J. Biomed. Mater. Res., 43 [3] 318-20 (1998).
T.-M. G. Chu, D. G. Orton, S. J. Hollister, S. E. Feinberg, and J. W. Halloran, "Mechanical and in Vivo Performance of Hydroxyapatite Implants with Controlled Architectures," Biomaterials, 23 [5] 1283-93 (2002).
R. A. Ayers, S. J. Simske, C. R. Nunes, and L. M. Wolford, "Long-term Bone Ingrowth and Residual Microhardness of Porous Block Hydroxyapatite Implants in Humans," J. Oral and Maxillofacial Surgery, 56 [11] 1297-301 (1998).
L. Le Guehennec, A. Soueidan, P. Layrolle, and Y. Amouriq, "Surface Treatments of Titanium Dental Implants for Rapid Osseointegration," Dental Materials, 23 [7] 844-54 (2007).
M. H. Fathi, M. Salehi, A. Saatchi, V. Mortazavi, and S. B. Moosavi, "In Vitro Corrosion Behavior of Bioceramic, Metallic, and Bioceramic-metallic Coated Stainless Steel Dental Implants," Dental Materials, 19 [3] 188-98 (2003).
J. P. Schmitz, J. O. Hollinger, and S. B. Milam, "Reconstruction of Bone using Calcium Phosphate Bone Cements: A Critical Review," J. Oral and Maxillofacial Surgery, 57 [9] 1122-26 (1999).
Z. Mazor, M. Peleg, A. K. Garg, and G. Chaushu, "The Use of Hydroxyapatite Bone Cement for Sinus Floor Augmentation with Simultaneous Implant Placement in the Atrophic Maxilla. A Report of 10 Cases," J. Periodontology, 71 [7] 1187-94 (2000).
S. Deb, M. Braden, and W. Bonfield, "Water Absorption Characteristics of Modified Hydroxyapatite Bone Cements," Biomaterials, 16 [14] 1095-100 (1995).
S. Blindow, M. Pulkin, D. Koch, G. Grathwohl, and K. Rezwan, " $Hydroxyapatite/SiO_2$ Composites via Freeze Casting for Bone Tissue Engineering," Adv. Eng. Mater., 11 [11] 875-84 (2009).
M. O. Dean, "Fabrication of Hydroxyapatite Ceramic with Controlled Porosity," J. Mater. Sci.: Mater. Medicine, 8 [4] 227-32 (1997).
J. Y. Kim, J. W. Lee, S. J. Lee, E. K. Park, S. Y. Kim, and D. W. Cho, "Development of a Bone Scaffold using HA Nanopowder and Micro-stereolithography Technology," Microelectro. Engi., 84 [5-8] 1762-65 (2005).
S. H. Kim, B. K. Lim, F. Sun, K. Koh, S. C. Ryu, H. S. Kim, and J. Lee, "Preparation of High Flexible Composite Film of Hydroxyapatite and Chitosan," Polymer Bulletin, 62 [1] 111-8 (2009).
B. K. Lim, S. C. Ryu, F. Sun, K. Koh, D. W. Han, and J. Lee, "Hydroxyapatite Coating on Damaged Tooth Surfaces by Immersion," Biomedical Materials, 4 [2] 025017 (2009).
N. Kot, M. Timutin, and F. Korkusuz, "Fabrication and Characterization of Porous Tricalcium Phosphate Ceramics," Ceram. International, 30 [2] 205-11 (2004).
M. Sayer, A. D. Stratilatov, J. Reid, L. Calderin, M. J. Stott, X. Yin, M. MacKenzie, T. J. N. Smith, J. A. Hendry, and S. D. Langstaff, "Structure and Composition of Silicon-stabilized Tricalcium Phosphate," Biomaterials, 24 [3] 369-82 (2003).
S. Padilla, J. Rombn, S. Sbnchez-Salcedo, and M. Vallet-Regi, " $Hydroxyapatite/SiO_2-CaO-P_2O_5$ Glass Materials: In Vitro Bioactivity and Biocompatibility," Acta Biomaterialia, 2 [3] 331-42 (2006).
A. Mortier, J. Lemaitre, L. Rodrique, and P. G. Rouxhet, "Synthesis and Thermal Behavior of Well-crystallized Calcium-Deficient Phosphate Apatite," J. Solid State Chem., 78 [2] 215-19 (1989).
R. L. Fullman, "Measurement of Particle Sizes in Opaque Bodies," Trans. Metall. Soc. AIME, 197 447-52 (1953).
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