Biomedical Engineering Reference
In-Depth Information
ceramics modified by a partial dissolution-precipitation technique using supersonic
treatment. Journal of the Ceramic Society of Japan, 118., 6., 535-540.
[5] Akazawa, T., Murata, M., Tabata, Y., & Ito, M.(2012). Bone regeneration (ISBN)
Chapter: biomimetic microstructure and biocompatibility of hydroxyapatite porous
ceramics designed by a partial dissolution-precipitation technique with supersonic
treatment. INTECK Publisher, Croatia, pp275-292
[6] Akazawa, T., Murata, M., Hino, J., Nagano, F., Shigyo, T, Nomura, T, Inano, H., Ita‐
bashi, K., Yamagishi, T, Nakamura, K., Takahashi, T., Iida, S., Kashiwazaki, H.
(2012). Surface structure and biocompatibility of demineralized dentin matrix gran‐
ules soaked in a simulated body fluid. Applied Surface Science, in press.
[7] Bang, G. & Urist, MR. (1967). Bone induction in excavation chambers in matrix of de‐
calcified dentin. Arch Surg, 94., 6., 781-789.
[8] Bessho, K., Tagawa, T., & Murata, M. (1990). Purification of rabbit bone morphoge‐
netic protein derived from bone, dentin, and wound tissue after tooth extraction. J
Oral Maxillofac Surg, 48., 162-169.
[9] Butler, WT., Mikulski, A., Urist, MR., Bridges, G., & Uyeno, S. (1977). Noncollage‐
nous proteins of a rat dentin matrix possessing bone morphogenetic activity. J Dent
Res, 56., 228-232.
[10] Finkelman, RD., Mohan, S., Jennings, JC., Taylor, AK., Jepsen, S., & Baylink, DJ.
(1990). Quantitation of growth factors IGF-I, SGF/IGF-II, and TGF-beta in human
dentin. J Bone Miner Res., 5., 7., 717-23.
[11] Fisher L.W., Torchia D.A., Fohr B., Young M.F., & Fedarko N.S. (2001). Flexible struc‐
tures of SIBLING proteins, bone sialoprotein, and osteopontin. Biochem Biophys Res
Commun., 280: 460-465.
[12] Huggins, CB., Wiseman, S., & Reddi, AH. (1970). Transformation of fibroblasts by al‐
logeneic and xenogeneic transplants of demineralized tooth and bone. J Exp Med,
132., 1250-1258.
[13] Huggins, CB., & Reddi, AH. (1973). Coagulation of blood plasma of guinea pig by
the bone matrix. Proc Natl Acad Sci U S A., 70., 3., 929-33.
[14] Inoue, T., Deporter, DA., & Melcher, AH. (1986). Induction of chondrogenesis in
muscle, skin, bone marrow, and periodontal ligament by demineralized dentin and
bone matrix in vivo and in vitro. J Dent Res, 65., 12-22.
[15] Ito, K., Arakawa, T., Murata, M., Tazaki, J., Takuma, T., & Arisue, M. (2008). Analysis
of bone morphogenetic protein in human dental pulp tissues. Archives of Bioceram‐
ics Research, 8., 166-169.
[16] Kawai, T., & Urist, MD. (1989). Bovine tooth-derived bone morphogenetic protein. J
Dent Res, 68., 1069-1074.
Search WWH ::
Custom Search