Biomedical Engineering Reference
In-Depth Information
Rodriguez-Lorenzo, L. M., Vallet-Regi, M., Ferreira, J. M. F., Ginebra, M. P., Aparicio, C. &
Planell, J. A. (2002) Hydroxyapatite ceramic bodies with tailored mechanical
properties for different applications.
Journal of Biomedical Materials Research A,
Vol.60, 159-166, ISSN 1097-4636.
Roveri, N. & Palazzo, B. (2006). Hydroxyapatite Nanocrystals as Bone Tissue Substitute. In
Tissue, Cell and Organ Engineering,
C.S.S.R. Kumar (Ed.), pp. 283-307, Wiley-VCH,
ISBN 978-3-527-31389-1, Weinheim.
Sakhno, Y., Bertinetti, L., Iafisco, M., Tampieri, A., Roveri, N. & Martra, G. (2010) Surface
Hydration and Cationic Sites of Nanohydroxyapatites with Amorphous or
Crystalline Surfaces: A Comparative Study.
The Journal of Physical Chemistry C,
Vol.114, No.39, pp.16640-16648, ISSN 1932-7447.
Sato, K., Kogure, T., Iwai, H. & Tanaka, J. (2002) Atomic-Scale {101-0} Interfacial Structure in
Hydroxyapatite Determined by High-Resolution Transmission Electron
Microscopy.
Journal of the American Ceramic Society,
Vol.85, No.12, pp.3054-3058,
ISSN 1551-2916.
Suda, H., Yashima, M., Kakihana, M. & Yoshimura, M. (1995) Monoclinic <--> Hexagonal
Phase Transition in Hydroxyapatite Studied by X-ray Powder Diffraction and
Differential Scanning Calorimeter Techniques.
The Journal of Physical Chemistry,
Vol.99, No.17, pp.6752-6754, ISSN 0022-3654.
Tadic, D., Beckmann, F., Schwarz, K. & Epple, M. (2004) A novel method to produce
hydroxyapatite objects with interconnecting porosity that avoids sintering.
Biomaterials,
Vol.25, No.16, pp.3335-3340, ISSN 0142-9612.
Tilocca, A. (2010) Models of structure, dynamics and reactivity of bioglasses: a review.
Journal of Materials Chemistry,
Vol.20, No.33, pp.6848-6858, ISSN 0959-9428.
Tilocca, A. & Cormack, A. N. (2007) Structural effects of Phosphorus Inclusion in Bioactive
SIlicate Glasses.
The Journal of Physical Chemistry B,
Vol.111, No.51, pp.14256-14264,
ISSN 1520-6106.
Tilocca, A. & Cormack, A. N. (2009) Surface Signatures of Bioactivity: MD Simulations of
45S and 65S Silicate Glasses.
Langmuir,
Vol.26, No.1, pp.545-551, ISSN 0743-7463.
Toulhat, N., Potocek, V., Neskovic, M., Fedoroff, M., Jeanjean, J. & Vincent, V. (1996)
Perspectives for the study of the diffusion of radionuclides into minerals using the
nuclear microprobe techniques.
Radiochimica Acta,
Vol.74, No.1, pp.257-262, ISSN
0033-8230.
Ugliengo, P., Viterbo, D. & Chiari, G. (1993) MOLDRAW: Molecular Graphics on a Personal
Computer.
Zeitschrift fur Kristallographie,
Vol.207, No.1, pp.9-23, ISSN 0044-2968.
Wahl, D. A., Sachlos, E., Liu, C. & Czernuszka, J. T. (2007) Controlling the processing of
collagen-hydroxyapatite scaffolds for bone tissue engineering.
Journal of Materials
Science: Materials in Medicine,
Vol.18, 201-209, ISSN 1573-4838.
Weiner, S. & Wagner, H. D. (1998) The material bone: structure-mechanical function
relations.
Annual Review of Materials Science,
Vol.28, No.1, pp.271-298, ISSN 0084-
6600.
Wierzbicki, A. & Cheung, H. S. (2000) Molecular modeling of inhibition of hydroxyapatite
by phosphocitrate.
Journal of Molecular Structure: THEOCHEM,
Vol.529, No.1-3,
pp.73-82, ISSN 0166-1280.
Young, R. A. & Brown, W. E. (1982). Structures of Biological Minerals. In
Biological
Mineralization and Demineralization,
G.H. Nancollas (Ed.), pp. 101-141, Springer-
Verlag, ISBN 978-0387115214, Berlin, Heidelberg, New York.
