Influence of bioimplant surface electrical potential on osteoblast behavior and bone tissue formation

IFMBE Proceedings

Volumn 29, Issue , 2010, Pages 800-803

  Dekhtyar, Yu ^a   Khlusov, I ^b   Polyaka, N ^a   Sammons, R ^c   Tyulkin, F ^a  

^a RIGA TECHNICAL UNIVERSITY   (Latvia)

^b RUSSIAN ILIZAROV SCIENTIFIC CENTER FOR RESTORATIVE TRAUMATOLOGY AND ORTHOPAEDICS   (Russian Federation)

^c UNIVERSITY OF BIRMINGHAM   (United Kingdom)

Author keywords

bioimplant; biomaterial; bone cell; bone tissue; electrical potential; surface

Indexed keywords

BIOIMPLANT; BONE CELL; BONE CELLS; BONE TISSUE; BONE TISSUE FORMATION; CORRELATION LENGTHS; ELECTRICAL CHARGES; ELECTRICAL POTENTIAL; HUMAN OSTEOBLAST; NANO SCALE; SURFACE AREA; SURFACE MICRO-GEOMETRY;

ADHESION; BIOCHEMICAL ENGINEERING; BIOLOGICAL MATERIALS; CELL ADHESION; MEDICAL COMPUTING; OSTEOBLASTS; TISSUE ENGINEERING;

BONE;

EID: 77957551468     PISSN: 16800737     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1007/978-3-642-13039-7_202     Document Type: Conference Paper

References (10)

1. Derjaguin B.V., Landau L.D. (1941) Theory of the stability of strongly charged lyophobic sols and of the adhesion of strongly charged particles in solution of electrolytes. Acta Physic Chimica, USSR, 14, 633-662.
2. Ratner B., Hoffman A., Schoen F., et al (1996) Biomaterial science. London.
3. Dekhtyar Yu., Polyaka N., Sammons R. (2008). Electrically charged hydrohyapatite enhances immobilization and proliferation of osteoblasts. IFMBE proc. V20, 357-360.
4. Ito S., Shinomiya K., Nakamura S., Kobayyashi T., Nakamura M. Yamashita K. (2006) Effect of electrical polarization of hydroxyapatite ceramics on new bone formation. Journal of the Japanese Bio-Electrical Research Society, 20: 23-27
5. Aronov D., Molotskii M., Rosenman G. (2007) Charge-induced wettability modification. Applied Phys. Let. 90: 104104-1-104104-1
6. Bystrov V., Bystrova N., Dekhtyar Yu/., Filippov S., Karlov A., Katashev A., Meissner C, Paramonova E., Patmalnieks A., Polyaka N., Sapronova A. (2006) Size depended electrical properties of hydroxyapatite nanoparticles IFMBE proc. 14.:3149-3150.
7. Dekhtyar Yu., Līvdane A., Połaka N., Timofeeva A. The method to process insulator layer of the bio prostheses (2006). The patent of the Republic of Latvia LV13522.
8. Geguzin Ya. E. Diffusion zone.(1979). Moscow (In Russian).
9. Akmene R.J., Balodis A.J., Dekhtyar Yu.D., Markelova G.N., Matvejevs J.V., Rozenfelds L.B., Sagalovia̧s G.L., Smirnovs J.S., Tolkaaovs A.A., Upmiņš A.I. (1993) Exoelectron emission specrometre complete set of surface local investigation. Poverhnost, Fizika, Himija, Mehanika (Russian Journal), 8:125.-128.
10. Lumbikanonda, N, & Sammons, R.L. (2001) Bone cell Attachment to Dental Implants of Different Surface characteristics. International Journal of Oral and Maxillofacial Implants. 16: 627-636.