大田区仲六郷2-14-14 カンタービレ1階
「雑色駅より徒歩30秒」

  • shinki saishin
  • MENU

MENU

院長の活動報告

海外雑誌

1. Effect of supramicron roughness characteristics produced by 1- and 2-step acid etching
on the osseointegration capability of titanium.
Att W, Tsukimura N, Suzuki T, Ogawa T.
Int J Oral Maxillofac Implants. 2007 Sep-Oct;22(5):719-28.

2. Microtopography of titanium suppresses osteoblastic differentiation but enhances
chondroblastic differentiation of rat femoral periosteum-derived cells.
Kubo K, Att W, Yamada M, Ohmi K, Tsukimura N, Suzuki T, Maeda H, Ogawa T.
J Biomed Mater Res A. 2008 Nov;87(2):380-91.

3. The effect of ultraviolet functionalization of titanium on integration with bone.
Aita H, Hori N, Takeuchi M, Suzuki T, Yamada M, Anpo M, Ogawa T.
Biomaterials. 2009 Feb;30(6):1015-25. Epub 2008 Nov 29.

4. Enhanced osteoblast function on ultraviolet light-treated zirconia.
Att W, Takeuchi M, Suzuki T, Kubo K, Anpo M, Ogawa T.
Biomaterials. 2009 Mar;30(7):1273-80. Epub 2008 Dec 18.

5. N-Acetyl cysteine restores viability and function of rat odontoblast-like cells
impaired by polymethylmethacrylate dental resin extract.
Yamada M, Kojima N, Att W, Hori N, Suzuki T, Ogawa T.
Redox Rep. 2009;14(1):13-22.

6. UV Treatment Dominates Time-Related Deteriorative Bioactivity of Titanium
Suzuki T, Att W, Hori N, Kubo K, Iwasa F, Ueno T, Maeda H, Ogawa T
Tissue engineering Part A Dec;15(12):3679-88

7. Age-dependent degradation of the protein adsorption capacity of titanium.
Hori N, Att W, Ueno T, Sato N, Yamada M, Saruwatari L, Suzuki T, Ogawa T.
J Dent Res. 2009 Jul;88(7):663-7.

8. N-Acetyl cysteine (NAC) inhibits proliferation, collagen gene transcription, and redox
stress in rat palatal mucosal cells.
Sato N, Ueno T, Kubo K, Suzuki T, Tsukimura N, Att W, Yamada M, Hori N, Maeda H, Ogawa T.
Dent Mater. 2009 Dec;25(12):1532-40. Epub 2009 Aug 12.

9. Osteoblast mechanoresponses on Ti with different surface topographies.
Sato N, Kubo K, Yamada M, Hori N, Suzuki T, Maeda H, Ogawa T.
J Dent Res. 2009 Sep;88(9):812-6.

10. Enhancement of bone-titanium integration profile with UV-photofunctionalized titanium
in a gap healing model.
Ueno T, Yamada M, Suzuki T, Minamikawa H, Sato N, Hori N, Takeuchi K, Hattori M, Ogawa T.
Biomaterials. 2010 Mar;31(7):1546-57. Epub 2009 Dec 5.

11. Ultraviolet light treatment for the restoration of age-related degradation of titanium
bioactivity.
Hori N, Ueno T, Suzuki T, Yamada M, Att W, Okada S, Ohno A, Aita H, Kimoto K, Ogawa T.
Int J Oral Maxillofac Implants. 2010 Jan-Feb;25(1):49-62.

12. Nonvolatile buffer coating of titanium to prevent its biological aging and for drug delivery
Suzuki T, Kubo K, Hori N, Yamada M, Kojima N, Sugita Y, Maeda H, Ogawa T
Biomaterials 2010 Jun;31(18):4818-28. Epub 2010 Mar 28.

13. Effect of ultraviolet photoactivation of titanium on osseointegration in a rat model.
Ueno T, Yamada M, Hori N, Suzuki T, Ogawa T.
Int J Oral Maxillofac Implants. 2010 Mar-Apr;25(2):287-94.

14. Effects of pico-to-nanometer-thin TiO2 coating on the biological properties of microroughened
titanium.
Sugita Y, Ishizaki K, Iwasa F, Ueno T, Minamikawa H, Yamada M, Suzuki T, Ogawa T.
Biomaterials. 2011 Nov;32(33):8374-84. Epub 2011 Aug 15.

15. Nanometer-thin TiO₂ enhances skeletal muscle cell phenotype and behavior.
Ishizaki K, Sugita Y, Iwasa F, Minamikawa H, Ueno T, Yamada M, Suzuki T, Ogawa T.
Int J Nanomedicine. 2011;6:2191-203. Epub 2011 Oct 3.

16. Bone integration capability of nanopolymorphic crystalline hydroxyapatite coated on titanium implants.
Yamada M, Ueno T, Tsukimura N, Ikeda T, Nakagawa K, Hori N, Suzuki T, Ogawa T.
Int J Nanomedicine. 2012;7:859-73. Epub 2012 Feb 17.