Biomedical Engineering Reference
In-Depth Information
253. langstaff, S. D., Sayer, m., Smith, T. J. N., and Pugh, S. m. (2001)
Resorbable bioceramics based on stabilized calcium phosphates. Part
II: Evaluation of biological response,
, 135-150.
254. Sayer, m., Stratilatov, A. D., reid, J. W., Calderin, l., Stott, m. J., Yin, X.,
macKenzie, m., Smith, T. J .N., Hendry, J. A., and langstaff, S. D. (2003)
Structure and composition of silicon-stabilized tricalcium phosphate,
Biomaterials
Biomaterials
,
22
, 369-382.
255. reid, J. W., Pietak, A. m., Sayer, m., Dunfield, D., and Smith, T. J. N. (2005)
Phase formation and evolution in the silicon substituted tricalcium
phosphate / apatite system,
,
24
, 2887-2897.
256. reid, J. W., Tuck, l., Sayer, m., Fargo, K., and Hendry, J. A. (2006) Synthesis
and characterization of single-phase silicon substituted α-tricalcium
phosphate,
Biomaterials
,
26
, 2916-2925.
257. Astala, r., Calderin, l., Yin, X., and Stott, m. J. (2006) Ab initio simulation
of Si-doped hydroxyapatite,
Biomaterials
,
27
, 413-422.
258. TenHuisen, K. S., and Brown, P. W. (1998) Formation of calcium-
deficient hydroxyapatite from α-tricalcium phosphate,
Chem. Mater.
,
18
Biomaterials
,
, 2209-2217.
259. Durucan, C., and Brown, P. W. (2000) α-tricalcium phosphate hydrolysis
to hydroxyapatite at and near physiological temperature,
19
J. Mater. Sci.
, 365-371.
260. Durucan, C., and Brown, P. W. (2002) Kinetic model for α-tricalcium
phosphate hydrolysis,
Mater. Med.
,
11
, 2013-2018.
261. Camiŕ, C. L., Gbureck, U., Hirsiger, W., and Bohner, M. (2005) Correlating
crystallinity and reactivity in an α-tricalcium phosphate,
J. Am. Ceram. Soc.
,
85
Biomaterials
,
, 2787-2794.
262. Constantz, B. r., Ison, I. C., Fulmer, m. T., Poser, r. D., Smith, S. T.,
Vanwagoner, m., ross, J., Goldstein, S. A., Jupiter, J. B., and rosenthal,
D. I. (1995) Skeletal repair by
26
in situ
formation of the mineral phase of
, 1796-1799.
263. Tagaya, M., Goto, H., Iinuma, M., Wakamatsu, N., Tamura, Y., and
Doi, Y. (2005) Development of self-setting Te-CP/α-TCP cement for
pulpotomy,
bone,
Science
,
267
, 555-561.
264. Oda, m., Takeuchi, A., lin, X., matsuya, S., and Ishikawa, K. (2008)
Effects of liquid phase on basic properties of α-tricalcium phosphate-
based apatite cement,
Dent. Mater. J.
,
24
, 672-677.
265. Camiŕ, C.l., Nevsten, P., lidgren, l., and mcCarthy, I. (2006) The efect
of crystallinity on strength development of α-TCP bone substitutes,
Dent. Mater. J.
,
27
J.
Biomed. Mater. Res. B
(
Appl. Biomater.
),
79B
, 159-165.
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