Biomedical Engineering Reference
In-Depth Information
hybridized with 1α,25-dihydroxyvitamin D
,
J. Mater. Sci. Mater.
3
, 2441-2453.
887. Shchukin, D. G., Sukhorukov, G. B., and Möhwald, H. (2003) Biomimetic
fabrication
Med.
,
20
of
nanoengineered
hydroxyapatite/polyelectrolyte
, 3947-3950.
888. Jacoveila, P. F. (2008) Use of calcium hydroxylapatite (Radiesse
®
) for
facial augmentation,
composite shell,
Chem. Mater.
,
15
, 161-174.
889. Lizzul, P. F., and Narurkar, V. A. (2010) The role of calcium
hydroxylapatite (Radiesse
®
) in nonsurgical aesthetic rejuvenation,
Clinical Interventions in Aging
,
3
J.
, 446-450.
890. Klesing, J., Chernousova, S., Kovtun, A., Neumann, S., Ruiz, L., Gonzalez-
Calbet, J. M., Vallet-Regi, M., Heumann, R., and Epple, M. (2010) An
injectable paste of calcium phosphate nanorods, functionalized with
nucleic acids, for cell transfection and gene silencing,
of Drugs in Dermatology
,
9
J. Mater. Chem.
,
, 6144-6148.
891. Thai, V. V., and Lee, B. T. (2010) Fabrication of calcium phosphate-
calcium sulfate injectable bone substitute using hydroxy-propyl-
methyl-cellulose and citric acid,
20
J. Mater. Sci. Mater. Med.
,
21
, 1867-
1874.
892.
Low, K. L., Tan, S. H., Zein, S. H. S., Roether, J. A., Mouriño, V., and
Boccaccini, A. R. (2010) Calcium phosphate-based composites as
injectable bone substitute materials,
J. Biomed. Mater. Res. B (Appl.
, 273-286.
893. Weiss, P., Gauthier, O., Bouler, J. M., Grimandi, G., and Daculsi, G.
(1999) Injectable bone substitute using a hydrophilic polymer,
Biomater.)
,
94B
Bone
,
, 67S-70S.
894. Daculsi, G., Weiss, P., Bouler, J. M., Gauthier, O., Millot, F., and Aguado,
E. (1999) Biphasic calcium phosphate/hydrosoluble polymer
composites: a new concept for bone and dental substitution
biomaterials,
25(2)
, 59S-61S.
895. Turczyn, R., Weiss, P., Lapkowski, M., and Daculsi, G. (2000)
Bone
,
25(2)
In situ
self-hardening bioactive composite for bone and dental surgery,
J.
, 217-223.
896. Bennett, S., Connolly, K., Lee, D. R., Jiang, Y., Buck, D., Hollinger, J. O.,
and Gruskin, E. A. (1996) Initial biocompatibility studies of a novel
degradable polymeric bone substitute that hardens
Biomater. Sci. Polymer Edn.
,
11
in situ
,
Bone
,
19
,
101S-107S.
897. Liu, X., Okada, M., Maeda, H., Fujii, S., and Furuzono, T. (2011)
Hydroxyapatite/biodegradable
poly(L-lactide-
co
-ε-caprolactone)
Search WWH ::
Custom Search