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Connective Tissue Research Volume 44, 2003 - Issue 1
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Research Article

Laser-Perforated Membranous Biomaterials Induced Pore Size-Dependent Bone Induction When Used as a New BMP Carrier

Y. Kuboki Graduate School of Dental Medicine, Hokkaido University, Sapporo, Japan; Koken Bioscience Institute, Tokyo, Japan
,
M. Kikuchi Graduate School of Dental Medicine, Hokkaido University, Sapporo, Japan
,
H. Takita Graduate School of Dental Medicine, Hokkaido University, Sapporo, Japan
,
R. Yoshimoto Graduate School of Dental Medicine, Hokkaido University, Sapporo, Japan
,
Y. Nakayama National Cardiovascular Center Research Institute, Osaka, Japan
,
T. Matsuda National Cardiovascular Center Research Institute, Osaka, Japan
&
Y. Ikada Institute for Frontier Medical Sciences, Kyoto University, Kyoto, Japan
 show all
Pages 318-325 | Published online: 06 Aug 2009

References

  • Kuboki, Y., Jin, Q.-M., and Takita, H. (2001). Geometry of carriers con- trolling phenotype expression in BMP-induced osteogenesis and chondro- genesis. J. Bone Joint Surg. 83-A:S1-105–115.
  • Kuboki, Y., Takita, H., Mizuno, M., and Fujisawa, R. (2001). Geometry of artificial extracellular matrices: A new paradigm from dental tissue engineering. Dent. Japan 37:42–50.
  • Mahmood, J., Takita, H., Ojima, Y., Kobayashi, M., Kohgo, T., and Kuboki, Y. (2001). Geometric effect of matrix upon cell differentiation: BMP-induced osteogenesis using a new bioglass with a feasible structure. J. Biochem. 129:163–171.
  • Kikuchi, M., Takita, H., Nakayama, Y., Matsuda, T., and Kuboki, Y. (2000). Laser-perforated collagen membrane: Pore size-dependent bone induction of a new BMP carrier. J. Hard Tiss. Biol. 9:79–89.
  • Jin, Q.M., Takita, H., Kohgo, T., Atsumi, K., Itoh, H., and Kuboki, Y. (2000). Effects of geometry of hydroxyapatite as a cell substratum J. Biomed. Mater. Res. 51:491–499.
  • Kuboki, Y., Takita, H., Kobayashi, D., Tsuruga, E., Inoue, M., Murata, M., Nagai, N., Dohi, Y., and Ohgushi, H. (1998). BMP-induced osteo- genesis on the surface of hydroxyapatite with geometrically feasible and non feasible structures: Topology of osteogenesis. J. Biomed. Mater. Res. 39:190–199.
  • Tsuruga, E., Takita, H., Itoh, H., Wakisaka, Y., and Kuboki, Y. (1997). Pore size of porous hydroxyapatite as the cell-substratum controls BMP- induced osteogenesis. J. Biochem. 121:317–324.
  • Kuboki, Y., Saito, T., Murata, M., Takita, H., Mizuno, M., Inoue, M., Nagai, N., and Poole, A.R. (1995). Two distinctive BMP carriers induce zonal chondrogenesis and membranous ossification, respectively: Geometrical factors of matrices for cell differentiation. Connect. Tiss. Res. 32:219–226.
  • Reddi, A.H. (1981). Cell biology and biochemistry of endochondral bone development. Coll. Rel. Res. 1:209–226.
  • Kuboki, Y., Sasaki, M., Saito, A., Takita, H., and Kato, H. (1998). Re- generation of periodontal ligament and cementum by BMP-applied tissue engineering. Eur. J. Oral Sci. 106:197–203.
  • Kuboki, Y., Watanabe, K., Kikuchi, M., Takita, H., Sato N., Fujinaga, T., Kato H., and Ohata. N. (1998). Periodontal regeneration in the re- implanted tooth by BMP-applied tissue engineering. 76th General Session and Exhibition of the IADR. J. Dent. Res. 77, abstract #1027.
  • Wada, R., Hyon S.-H., Nakamura, T., and Ikada, Y. (1991). In vitro eval- uation of sustained drug release from biodegradable elastomer. Pharm. Res. 8:1292–1296.
  • Nakayama, Y., Anderson, J.M., and Matsuda T. (2000). Laboratory-scale mass production of a multi-micropatterned grafted surface with different polymer regions. J. Biomed. Mater. Res. 53:584–591.
  • Kuboki, Y., Jin, Q. M., Kikuchi, M., Mamood, J., and Takita, H. (2002). Geometry of artificial ECM: Sizes of pores controlling phenotype, expres- sion in BMP-induced osteogenesis and chondrogenesis. Connect. Tiss. Res. 43:529–534.
  • Takita, H., and Kuboki, Y. (1997). Carrier-dependency and synergism in BMP-induced bone formation. J. Hard. Tis. Biol. 7:37–40.

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