Biomedical Engineering Reference
In-Depth Information
179. Sepulveda P, Binner JGP. Processing of cellular ceramics by foaming and
in situ
polymerisation of
organic monomers.
J Eur Ceram Soc
1999; 20: 2059-2066.
180. Ortega FS, Valenzuela FAO, Pandolfelli VC. Gelcasting ceramic foams with alternative gelling agents.
Mater Sci
F 20 03; 416: 512-518.
181. Sepulveda P, Binner JGP, Rogero SO, Higa OZ, Bressiani JC. Production of porous hydroxyapatite by
the gel-casting of foams and cytoxic evaluation.
J Biomed Mater Res
2000; 50: 27-34.
182. Sepulveda P, Bressiani AH, Bressiani JC, Meseguer L, Konig Jr B.
In vivo
evaluation of hydroxyapatite
foams.
J Biomed Mater Res
2002; 62: 587-592.
183. Tamai N, Myoui A, Tomita T, Nakase T, Tanaka J, Ochi T, Yoshikawa H. Novel hydroxyapatite ceramics
with an interconnective porous structure exhibit superior osteoconduction
in vivo.
J Biomed Mater Res
2002; 59: 110-117.
184. Ramay HRR, Zhang M. Preparation of porous hydroxyapatite scaffolds by combination of the gel-casting
and polymer sponge methods.
Biomaterials
2003; 24: 3293-3302.
185. Callcut S, Knowles JC. Correlation between structure and compressive strength in a reticulate glass-
reinforced hydroxyapatite foam.
J Mater Sci Mater Med
2002; 13: 485-489.
186. Brinker CJ, Scherer GW.
Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing
. Aca-
demic Press, London, 1990.
187. Saravanapavan P, Hench LL. Mesoporous calcium silicate glasses. I. Synthesis.
J Non-Cryst Sol
2003;
318: 1-13.
188. Sepulveda P, Jones JR, Hench LL. Bioactive sol-gel foams for tissue repair.
J Biomed Mater Res
2002;
59: 340-348.
189. Jones JR, Hench LL. Factors affecting the structure and properties of bioactive foam scaffolds for tissue
engineering.
J Biomed Mater Res B
Appl Biomater
2004; 68B: 36-44.
190. Jones JR, Ahir S, Hench LL. Large-scale production of 3D bioactive glass macroporous scaffolds for
tissue engineering.
J Sol-Gel Sci Tech
2004; 29: 179-188.
191. Lenza RFS, Jones JR, Vasconcelos WL, Hench LL.
In vitro
release kinetics of proteins from bioactive
forms.
J Biomed Mater Res
2003; 67A: 121-129.
192. Gough JE, Jones JR, Hench LL. Nodule formation and mineralization of human primary osteoblasts
cultured on a porous bioactive glass scaffold.
Biomaterials
2004; 25: 2039-2046.
193. Bose S, Avila M, Bandyopadhyay A. Processing of bioceramic implants via fused deposition process.
Proceedings of Solid Freeform Fabrication Symposium
, Austin, TX, 1998, pp. 629-636.
194. Hattiangadi A, Bandyopadhyay A.
Proceedings of Solid Freeform Fabrication Symposium
, Austin, TX,
1999, pp. 319-326.
195. Chu TMG, Orton DG, Hollister SJ, Feinberg SE, Halloran JW. Mechanical and
in vivo
performance of
hydroxyapatite implants with controlled architectures.
Biomaterials
2002; 23: 1283-1293.
196. Cornejo IA, McNulty TF, Lee S, Bianchi E, Danforth SC, Safari A. Development of bioceramics tissue
scaffolds via fused deposition of ceramics. In:
Bioceramics: Materials and Applications
, George L (ed.)
American Ceramic Society, Westeville, OH, 2000, pp. 183-195.
197. Jun IK, Koh YH, Kim HE. Fabrication of a highly porous bioactive glass-ceramic scaffold with a high
surface area and strength.
J Am Ceram Soc
2006; 89: 391-394.
198. Sachlos E, Czernuszka JT. Making tissue engineering scaffolds work. Review on the application of solid
freeform fabrication technology to the production of tissue engineering scaffolds.
Euro Cells Mater
2003; 5: 29-40.
199. Yang S, Leong AF, Du Z, Chua CK. The design of scaffolds for use in tissue engineering. Part II. Rapid
prototyping techniques.
Tissue Eng
2002; 8: 1-11.
200. Curodeau A, Sachs E, Caldarise S. Design and fabrication of casat orthopaedic implant with freeform
surface textures from 3-D printed ceramic shell.
J Biomed Mater Res
2000; 53: 525-535.
201. Das S, Hollister SJ. Tissue engineering scaffold.
Encyclopaedia of Materials: Science and Technology
2003, pp. 1-7.
202. Lee GH, Barlow JW. Selective laser sintering of bioceramic materials for implants.
Proceedings of Solid
Freeform Fabrication Symposium
, Austin, TX, 1993; pp. 376-380.
203. Lee GH, Barlow JW. Selective laser sintering of calcium phosphate powders.
Proceedings of Solid Free-
form Fabrication Symposium
, Austin, TX, 1994, pp. 191-197.
204. Boccaccini AR, Chen QZ, Lefebvre L, Gremillard L, Chevalier J. Sintering, crystallisation and biodeg-
radation behaviour of Bioglass
®
-derived glass-ceramics.
Faraday Discuss
., 2007; 136: 27-44.
205. Tadic D, Beckmann F, Schwarz K, Epple M. A novel method to produce hydroxyapatite objects with
interconnecting porosity that avoids sintering.
Biomaterials
2004; 25: 3335-3340.
