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Literature DB >> 15448411

Titanium oxide nanotubes for bone regeneration.

Suguru Kubota¹, Kohei Johkura, Kazuhiko Asanuma, Yasumitsu Okouchi, Naoko Ogiwara, Katsunori Sasaki, Tomoko Kasuga.

Abstract

Titanium oxide nanotubes with Ca ions on their surfaces were prepared as 2 mm cylindrical inserts and placed into surgically created bone defects in the femurs of Wistar rats. On day 3, fibroblast-like cells were present on the surface of the nanotube inserts and fibers were observed by scanning electron microscopy (SEM). On day 7, cells with alkaline phosphatase activity were present and identified as osteoblasts by SEM and transmission electron microscopy. New bone matrices were observed in and around the porous nanotube inserts by light microscopy. Compared with clinically used hydroxyapatite and tricalcium phosphate, beta-titanium oxide nanotubes promote faster acquisition and development of osteoblasts and bone tissues and have better bone regenerating ability after one week.

Entities: Chemical Disease Species

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Year: 2004 PMID： 15448411 DOI： 10.1023/B:JMSM.0000042689.78768.77

Source DB: PubMed Journal: J Mater Sci Mater Med ISSN： 0957-4530 Impact factor: 3.896

16 in total

3. Electrochemical growth behavior, surface properties, and enhanced in vivo bone response of TiO2 nanotubes on microstructured surfaces of blasted, screw-shaped titanium implants.

Authors: Young-Taeg Sul
Journal: Int J Nanomedicine Date: 2010-04-15

4. Titanium dioxide nanoparticles enhance production of superoxide anion and alter the antioxidant system in human osteoblast cells.

Authors: Karolina Niska; Katarzyna Pyszka; Cecylia Tukaj; Michal Wozniak; Marek Witold Radomski; Iwona Inkielewicz-Stepniak
Journal: Int J Nanomedicine Date: 2015-02-04

4 in total

Titanium oxide nanotubes for bone regeneration.

1. The fine structure of developing bone in the embryonic fowl.

2. Collagen-crystal relationships in bone as seen in the electron microscope.

3. A cytological and histochemical study of bone and cartilage formation in the rat.

4. Distribution of glycogen in osteoblasts of the fetal rat.

5. Biocompatibility of titanium implants: surface science aspects.

6. Morphology of the osteon. An electron microscopic study.

7. Degradation characteristics of alpha and beta tri-calcium-phosphate (TCP) in minipigs.

8. Solutions able to reproduce in vivo surface-structure changes in bioactive glass-ceramic A-W.

9. Experimental studies on a new bioactive bone cement: hydroxyapatite composite resin.

10. Electron microscopy of cartilage and bone matrix at the distal epiphyseal line of the femur in the newborn infant.

Review 1. Biomedical applications of nanotechnology.

2. Corrosion characteristics of anodized Ti-(10-40wt%)Hf alloys for metallic biomaterials use.

3. Electrochemical growth behavior, surface properties, and enhanced in vivo bone response of TiO2 nanotubes on microstructured surfaces of blasted, screw-shaped titanium implants.

4. Titanium dioxide nanoparticles enhance production of superoxide anion and alter the antioxidant system in human osteoblast cells.