Biomedical Engineering Reference
In-Depth Information
M. N. Rahaman and Q. Fu. 2008. Manipulation of porous bioceramic microstructures
by freezing of suspensions containing binary mixtures of solvents.
Journal of the
American Ceramic Society
91(12): 4137-4140.
R. R. Rao, H. N. Roopa, and T. S. Kannan. 1997. Solid state synthesis and thermal sta-
bility of HAP and HAP-β-TCP composite ceramic powders.
Journal of Materials
Science: Materials in Medicine
8(8): 511-518.
B. D. Ratner and S. J. Bryant. 2004. Biomaterials: Where we have been and where we
are going.
Annual Review of Biomedical Engineering
6: 41-75.
S. Raynaud, E. Champion, and D. Bernache-Assollant. 2002. Calcium phosphate apa-
tites with variable Ca/P atomic ratio II. Calcination and sintering.
Biomaterials
23(4): 1073-1080.
S. Raynaud, E. Champion, J. P. Lafon, et al. 2002. Calcium phosphate apatites with
variable Ca/P atomic ratio III. Mechanical properties and degradation in solu-
tion of hot pressed ceramics.
Biomaterials
23(4): 1081-1089.
J. W. Reid, A. Pietak, M. Sayer, et al. 2005. Phase formation and evolution in the silicon
substituted tricalcium phosphate/apatite system.
Biomaterials
26(16): 2887-2897.
F. Ren, R. Xin, X. Ge, et al. 2009. Characterization and structural analysis of zinc-
substituted hydroxyapatites.
Acta Biomaterialia
5(8): 3141-3149.
G. Renaudin, P. Laquerriere, Y. Filinchuk, et al. 2008. Structural characterization of
sol-gel derived Sr-substituted calcium phosphates with anti-osteoporotic and
anti-inflammatory properties.
Journal of Materials Chemistry
18(30): 3593-3600.
S. Ringer. 1883. A further contribution regarding the influence of the different con-
stituents of the blood on the contraction of the heart.
Journal of Physiology
4(1):
29-42.
U. Ripamonti, J. Crooks, L. Khoali, et al. 2009. The induction of bone formation by
coral-derived calcium carbonate/hydroxyapatite constructs.
Biomaterials
30(7):
1428-1439.
D. M. Roy and S. K. Linnehan. 1974. Hydroxyapatite formed from coral skeletal car-
bonate by hydrothermal exchange.
Nature
247(5438): 220-222.
M. Sayer, A. D. Stratilatov, J. Reid, et al. 2003. Structure and composition of silicon-
stabilized tricalcium phosphate.
Biomaterials
24(3): 369-382.
H. K. Schmidt. 2000. Nanoparticles for ceramic and nanocomposite processing.
Molecular Crystals and Liquid Crystals
353: 165-179.
H. Schoof, J. Apel, I. Heschel, et al. 2001. Control of pore structure and size in freeze-
dried collagen sponges.
Journal of Biomedical Materials Research
58(4): 352-357.
H. Schoof, L. Bruns, J. Apel, et al. 1998. Einfluss des Einfriervorganges auf die
Porenstruktur gefriergetrockneter Kollagenschwämme.
KiLuft und Kätetechnik
34: 247-252.
H. Schoof, L. Bruns, A. Fischer, et al. 2000. Dendritic ice morphology in unidirection-
ally solidified collagen suspensions.
Journal of Crystal Growth
209(1): 122-129.
A. G. Shard and P. E. Tomlins. 2006. Biocompatibility and the efficacy of medical
implants.
Regenerative Medicine
1(6): 789-800.
E. C. Shors. 1999. Coralline bone graft substitutes.
The Orthopedic Clinics of North
America
30(4): 599-613.
A. Siddharthan, S. K. Seshadri, and T. S. S. Kumar. 2006. Influence of microwave
power on nanosized hydroxyapatite particles.
Scripta Materialia
55(2): 175-178.
S. I. Stupp and P. V. Braun. 1997. Molecular manipulation of microstructures:
Biomaterials, ceramics, and semiconductors.
Science
277(5330): 1242-1248.
Search WWH ::
Custom Search