Biomedical Engineering Reference
In-Depth Information
384. Karageorgiou, V., and Kaplan, D. (2005) Porosity of 3D biomaterial
scaffolds and osteogenesis,
, 5474-5491.
385. Tamai, N., Myoui, A., Kudawara, I., Ueda, T., and Yoshikawa, H. (2010)
Novel fully interconnected porous hydroxyapatite ceramic in surgical
treatment of benign bone tumor,
Biomaterials
,
26
, 560-568.
386. Ohgushi, H., Goldberg, V. M., and Caplan, A. I. (1989) Heterotopic
osteogenesis in porous ceramics induced by marrow cells,
J. Orthop. Sci.
,
15
J. Orthop.
, 568-578.
387. Cheung, H. S., and Haak, M. H. (1989) Growth of osteoblasts on porous
calcium phosphate ceramic: an
Res.
,
7
in vitro
model for biocompatibility
, 63-67.
388. Zyman, Z., Ivanov, I., Glushko, V., Dedukh, N., and Malyshkina, S. (1998)
Inorganic phase composition of remineralisation in porous CaP
ceramics,
study,
Biomaterials
,
10
, 1269-1273.
389. Yoshikawa, T., Ohgushi, H., and Tamai, S. (1996) Immediate bone
forming capability of prefabricated osteogenic hydroxyapatite,
Biomaterials
,
19
J.
, 481-492.
390. Chang, B. S., Lee, C. K., Hong, K. S., Youn, H. J., Ryu, H. S., Chung, S. S.,
and Park, K. (2000) Osteoconduction at porous hydroxyapatite with
various pore configurations,
Biomed. Mater. Res.
,
32
, 1291-1298.
391. Flautre, B., Descamps, M., Delecourt, C., Blary, M. C., and Hardouin, P.
(2001) Porous HA ceramic for bone replacement: role of the pores
and interconnections-experimental study in the rabbits,
Biomaterials
,
21
J. Mater. Sci.
, 679-682.
392. McAfee, P. C., Cunningham, B. W., Orbegoso, D. O., Sefter, J. C., Dmitriev, A.
E., and Fedder, I. L. (2003) Analysis of porous ingrowth in intervertebral
disc prostheses,
Mater. Med.
,
12
, 332-340.
393. Tamai, N., Myoui, A., Tomita, T., Nakase, T., Tanaka, J., Ochi, T., and
Yoshikawa, H. (2002) Novel hydroxyapatite ceramics with an
interconnective porous structure exhibit superior osteoconduction
Spine
,
28
in
, 110-117.
394. Mastrogiacomo, M., Scaglione, S., Martinetti, R., Dolcini, L., Beltrame, F.,
Cancedda, R., and Quarto, R. (2006) Role of scaffold internal structure
on
vivo
,
J. Biomed. Mater. Res.
,
59
bone formation in macroporous calcium phosphate
bioceramics,
in vivo
, 3230-3237.
395. Okamoto, M., Dohi, Y., Ohgushi, H., Shimaoka, H., Ikeuchi, M., Matsushima,
A., Yonemasu, K., and Hosoi, H. (2006) Influence of the porosity of
hydroxyapatite ceramics on
Biomaterials
,
27
in vitro
and
in vivo
bone formation by
cultured rat bone marrow stromal cells,
J. Mater. Sci. Mater. Med.
,
17
,
327-336.
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