Biomedical Engineering Reference
In-Depth Information
Bioceramic based materials with designed reac-
tivity for bone regeneration.
J. R. Soc. Interface
6, S349-S360.
[6] Stavropoulos, A. 2008. Deproteinized bovine bone xenograft. In: Pietrzak, W.S. (ed.),
Musculoskeletal Tissue Regeneration. Orthopedic Biology and Medicine
. Humana Press, Totowa,
New Jersey, USA.
[7] Navarro, M., Michiradi, A., Castano, O., Planell, J.A. 2008. Biomaterials in orthopaedics.
J. R.
Soc. Interface
5, 1137-1158.
[8] Maroothynaden, J. 2008. Bioactive glasses—new opportunities for regenerative medicine. In
Biomaterials and Biomedical Engineering
. TTP Trans Tech Publications, Switzerland.
[9] Hench, L.L., Wilson, J. (eds.) 1993.
An Introduction To Bioceramics
. World Scientific Press,
Singapore.
[10] Kukobo, T. 2008.
Bioceramics and Their Clinical Applications
. Woodhead Publishing and Maney
Publishing, on behalf of the Institute of Materials, Minerals & Mining, Cambridge, UK.
[11] Best, S.M. 2008. Bioceramics, past, present and future.
J. Eur. Ceram. Soc
. 28, 1319-1327.
[12] Donglu, S. (ed.). 2004.
Biomaterials and Tissue Engineering
. Springer, Berlin Heidelberg, Germany.
[13] Höland, W., Vogel, W., Nauman, K. 1985. Interface reactions between machinable bioactive
glass-ceramic and bone.
J. Biomed. Mater. Res
. 19, 303-312.
[14] Hench, L.L. 1993. Characterisation of bioceramics. In: Hench, L.L., Wilson, J. (eds.),
Advanced
Series in Ceramics
, vol. 1.
An introduction to Bioceramics
, 319-334. World Scientific, Singapore.
[15] William, D.F. 1987. Tissue-biomaterials interactions.
J. Sci.
22, 3421-3445.
[16] Inayat-Hussain, S., Rajab, N.F. 2009. In vitro testing of biomaterials toxicity and biocompat-
ibility. In: Di Silvio, L. (ed.),
Cellular Responses to Biomaterials
, 508-537. CRC Press, Woodhead
publishing Ltd, Cambridge, UK.
[17] Kokubo, T., Takadama, H. 2006. How useful is SBF in predicting in vivo bioactivity?
Biomaterials
27, 2907-2915.
[18] Bohner, M., Lemaitre, J. 2009. Can bioactivity be tested in vitro with SBF solution?
Biomaterials
30(12), 2175-2179. Epub 2009 Jan 26. Review.
[19] Lee, K.Y., Park, M., Lim, Y.J., Chun, H.J., Kim, H., Moon, S.H. 2006. Ceramic bioactivity: prog-
ress, challenges and perspectives.
Biomed. Mater
. 1, R31-R37.
[20] Juhasz, J.A., Best, S.M., Auffret, A.D., Bonfield, W. 2008. Biological control of apatite growth in
simulated body fluid and human blood serum.
J. Mater. Sci: Mater Med
. 19, 1823-1829.
[21] Kirk, S.E., Skepper, J,N., Donald, A.M. 2009. Application of environmental scanning electron
microscopy to determine biological surface structure.
J. Microsc
. 233(2), 205-224.
[22] Mayer, E. 1992.
Atomic Force Microscopy. Progress in Surface Sciences
. Vol. 42, 3-49. Pergamon
Press, New York, USA.
[23] Hollinger, J.O., Citron, M. 2006. Considerations for in-vivo testing of biomaterials. In: Guelcher,
S.A., and Hollinger. J.O. (eds.), An
Introduction to Biomaterials
, 81-104. CRC Press, USA.
[24] Hench, L.L. 1991. Bioceramics: from concept to clinic.
J. Am. Ceram. Soc
. 74(7), 1487-1510.
[25] Park, J. 2009.
Bioceramics—Properties, Characterization and Applications
. Springer, New York, NY.
[26] Tanaka, Y., Yamashita, K., 2008. Fabrication processes for bioceramics. In: Kukobo, T. (ed.)
Bioceramics and Their Clinical Applications
. Woodhead Publishing and Maney Publishing, on
behalf of the Institute of Materials, Minerals & Mining, Cambridge, UK.
[27] Hench, L.L., and Andersson, O. 1993. Bioactive glass coatings. In: Hench, L.L., and Wilson, J.
(eds.),
An Introduction to Bioceramics
, 239-259. World Scientific Press, Singapore.
[28] Pazo, A., Saiz, E., Tomsai, A.P., 1998. Silicate coatings on titanium based implants.
Acta Mater
.
46, 2551-2558.
[29] Van Landuyt, P., Streydio, J.M., Delannay, F., Munting, E. 1994. Synthesis of bioactive coatings
on Ti substrates using glass enamel.
Clin Mater
. 17(1), 29-33.
[30] Gomez-Vega, J.M., Hozumi, E., Saiz, E., Tomsia, A.P., Sugimura, H., Takai, O. 2001. Bioactive
glass-mesoporous silica coatings on Ti6Al4V through enamelling and triblock-copolymer-
templated sol-gel processing.
J.
Biomed. Mater. Res
. 56(3), 382-389.
[31] Hill, R.G., Stevens, M.M., O'Donnell, M. 2009. WO=2009081120.
[5] Ohtsuki, C., Kamitahara, M., Miyazaki, T. 2009. Bioceramic based materials with designed reac-
Ohtsuki, C., Kamitahara, M., Miyazaki, T. 2009. Bioceramic based materials with designed reac-
Search WWH ::
Custom Search