Pore throat size and connectivity determine bone and tissue ingrowth into porous implants : Three-dimensional micro-CT based structural analyses of porous bioactive titanium implants
作者: Bungo Otsuki , Mitsuru Takemoto , Shunsuke Fujibayashi , Masashi Neo , Tadashi Kokubo
DOI: 10.1016/J.BIOMATERIALS.2006.08.013
关键词: Interconnectivity 、 Biomedical engineering 、 Tomography 、 Materials science 、 Tissue ingrowth 、 Porosity 、 Micro ct 、 Osseointegration 、 Implant 、 Titanium
摘要: … Four types of sintered porous titanium implants with different porosities and pore sizes (ST50–250 (target porosity=50%, spacer particle size used=250–500 μm), ST50–500 (50%, 500–…
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J. X. LU, B. FLAUTRE, K. ANSELME, P. HARDOUIN, A. GALLUR, M. DESCAMPS, B. THIERRY, Role of interconnections in porous bioceramics on bone recolonization in vitro and in vivo. Journal of Materials Science: Materials in Medicine. ,vol. 10, pp. 111- 120 ,(1999) , 10.1023/A:1008973120918
C. E. Wen, Y. Yamada, K. Shimojima, Y. Chino, T. Asahina, M. Mabuchi, Processing and mechanical properties of autogenous titanium implant materials Journal of Materials Science: Materials in Medicine. ,vol. 13, pp. 397- 401 ,(2002) , 10.1023/A:1014344819558
M KNACKSTEDT, C ARNS, T SENDEN, K GROSS, Structure and properties of clinical coralline implants measured via 3D imaging and analysis Biomaterials. ,vol. 27, pp. 2776- 2786 ,(2006) , 10.1016/J.BIOMATERIALS.2005.12.016
Mitsuru Takemoto, Shunsuke Fujibayashi, B. Otsuki, Tomiharu Matsushita, Tadashi Kokubo, Takashi Nakamura, 3-D Analysis of Pore Structure of Porous Biomaterials Using Micro Focus X-Ray Computed Tomography Key Engineering Materials. pp. 1095- 1098 ,(2006) , 10.4028/WWW.SCIENTIFIC.NET/KEM.309-311.1095
D. L. Wheeler, M. J. Montfort, S. W. McLoughlin, Differential healing response of bone adjacent to porous implants coated with hydroxyapatite and 45S5 bioactive glass. Journal of Biomedical Materials Research. ,vol. 55, pp. 603- 612 ,(2001) , 10.1002/1097-4636(20010615)55:4<603::AID-JBM1054>3.0.CO;2-N
O GAUTHIER, R MULLER, D VONSTECHOW, B LAMY, P WEISS, J BOULER, E AGUADO, G DACULSI, In vivo bone regeneration with injectable calcium phosphate biomaterial: a three-dimensional micro-computed tomographic, biomechanical and SEM study. Biomaterials. ,vol. 26, pp. 5444- 5453 ,(2005) , 10.1016/J.BIOMATERIALS.2005.01.072
Y. Kuboki, H. Takita, D. Kobayashi, E. Tsuruga, M. Inoue, M. Murata, N. Nagai, Y. Dohi, H. Ohgushi, BMP-induced osteogenesis on the surface of hydroxyapatite with geometrically feasible and nonfeasible structures: topology of osteogenesis. Journal of Biomedical Materials Research. ,vol. 39, pp. 190- 199 ,(1998) , 10.1002/(SICI)1097-4636(199802)39:2<190::AID-JBM4>3.0.CO;2-K
P.W. Hui, P.C. Leung, Andy Sher, Fluid conductance of cancellous bone graft as a predictor for graft-host interface healing Journal of Biomechanics. ,vol. 29, pp. 123- 132 ,(1996) , 10.1016/0021-9290(95)00010-0
Christel P. A. T. Klein, P. Patka, H. B. M. van der Lubbe, J. G. C. Wolke, K. de Groot, Plasma-sprayed coatings of tetracalciumphosphate, hydroxyl-apatite, and alpha-TCP on titanium alloy: an interface study Journal of Biomedical Materials Research. ,vol. 25, pp. 53- 65 ,(1991) , 10.1002/JBM.820250105
Shunsuke Fujibayashi, Masashi Neo, Hyun-Min Kim, Tadashi Kokubo, Takashi Nakamura, Osteoinduction of porous bioactive titanium metal. Biomaterials. ,vol. 25, pp. 443- 450 ,(2004) , 10.1016/S0142-9612(03)00551-9