Biomedical Engineering Reference
In-Depth Information
768. Ono, I., Ohura, T., Murata, M., Yamaguchi, H., Ohnuma, Y., and Kuboki,
Y. (1992) A study on bone induction in hydroxyapatite combined with
bone morphogenetic protein,
, 870-879.
769. Ono, I., Yamashita, T., Jin, H. Y., Ito, Y., Hamada, H., Akasaka, Y.,
Nakasu, M., Ogawa, T., and Jimbow, K. (2004) Combination of porous
hydroxyapatite and cationic liposomes as a vector for BMP-2 gene
therapy,
Plast. Reconstr. Surg.
,
90
, 4709-4718.
770. Sawyer, A. A., Hennessy, K. M., and Bellis, S. L. (2007) The effect of
adsorbed serum proteins, RGD and proteoglycan-binding peptides
on the adhesion of mesenchymal stem cells to hydroxyapatite,
Biomaterials
Biomaterials
,
25
, 383-392.
771. Mastrogiacomo, M., Muraglia, A., Komlev, V., Peyrin, F., Rustichelli,
F., Crovace, A., and Cancedda, R. (2005) Tissue engineering of bone:
search for a better scaffold,
,
28
, 277-284.
772. Schek, R. M., Taboas, J. M., Hollister, S. J., and Krebsbach, P. H. (2005)
Tissue engineering osteochondral implants for temporomandibular
joint repair,
Orthod. Craniofac. Res.
,
8
, 313-319.
773. Krylova, E. A., Ivanov, A. A., Krylov, S. E., Plashchina, I. G., Grigorjan,
A. S., Goldstein, D. V., Pulin, A. A., and Fatkhudinov, T. H. (2006)
Hydroxyapatite — alginate structure as living cells supporting system,
Minerva Biotecnol.
Orthod. Craniofac. Res.
,
8
, 17-22.
774. Nishikawa, M., Myoui, A., Ohgushi, H., Ikeuchi, M., Tamai, N.,
and Yoshikawa, H. (2004) Bone tissue engineering using novel
interconnected porous hydroxyapatite ceramics combined with
marrow mesenchymal cells: quantitative and three-dimensional image
analysis,
,
18
, 367-376.
775. Quarto, R., Mastrogiacomo, M., Cancedda, R., Kutepov, S. M., Mukhachev,
V, Lavroukov, A., Kon, E., and Marcacci, M. (2001) Repair of large bone
defects with the use of autologous bone marrow stromal cells,
Cell Transplant.
,
3
N. Engl.
, 385-386.
776. Vacanti, C. A., Bonassar, L. J., Vacanti, M. P., and Shufflebarger, J. (2001)
Replacement of an avulsed phalanx with tissue-engineered bone,
J. Med.
,
344
N.
, 1511-1514.
777. Morishita, T., Honoki, K., Ohgushi, H., Kotobuki, N., Matsushima, A., and
Takakura, Y. (2006) Tissue engineering approach to the treatment of
bone tumors: three cases of cultured bone grafts derived from patients'
mesenchymal stem cells,
Engl. J. Med.
,
344
, 115-118.
778. Eniwumide, J. O., Yuan, H., Cartmell, S. H., Meijer, G. J., and de Bruijn, J.
D. (2007) Ectopic bone formation in bone marrow stem cell seeded
Artif. Organs
,
30
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