Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

ISSN 0131-9582 (Online)

Prospects of using composite hydroxyapatite ceramic as a carrier of cultured stem cells

Details
Hits: 29959
Autors: L. A. Ivanchenko, A. R. Parkhomei, A. G. Popandopulo, and A. V. Oberemko
  • Continuous numbering: 1007
  • Pages: 31-34
  • Share:

Heading: Biomaterials

The issues of the possibility of using composite ceramics based on biogenic hydroxyapatite (BHA) as carriers of cultured stem cells are considered. The results of studies of the microstructure and biochemical activity of glass-ceramic samples based on BHA with a maximum fraction of open porosity, prepared for use as substrates for cloning fibroblast cells in vitro, are presented. The results of a visual assessment using fluorescence microscopy of cell adhesion and their proliferative activity on bioresorbable membrane-type substrates made of a composite material based on biogenic hydroxyapatite are also presented. Tab. 2, ill. 4, bibliography: 8 titles.
Kasten P., Luginb & uuml; hlR., Van Griensven et al. Comparison of human bone marrow stromalcells seeded on calcium-deficient hydroxyapatite, ? -tricalcium phosphate and demineralized bone matrix // Biomaterials. 2003. V. 24. P. 2593 - 2603. Klimovitsky V. G., Grin V. K., Vasilenko I. V. et al. Inductive properties of carriers of mesenchymal stem cells // Trauma. 2007. T. 8. No. 3. S. 243-247 . Knabe C., Berger G., Gilderhaar R. et al. The functional expression of human bone-derived cells grown on rapidly resorbable calcium phosphate ceramics // Biomaterials. 2004. V. 25. P. 335 - 344. DL Mastryukova, BI Beletskiy, OV Polukhina. Glass ceramics with an adjustable pore structure for medicine // Glass and ceramics. 2007. N 4. S. 23 - 26. Mastryukova DL, Beletskii BI, Polukhina OV Glass ceramics with controllable pore structure for medicine // Glass and Ceram. 2007. V. 64. N 3 - 4. P. 132 - 135. Sulima V. S, Panchenko LM Immunological preparation of mobility of materials on the basis of biological hydroxyapatite for the prevention of cystic defects // Galitskiy Likarskiy Vichy. 2002. T. 9.N. 1.S. 87 - 89. Pat. on corisne model N 37194. Vugletsny biomaterial / O. R. Parkhomey, L. A. Ivanchenko, R. V. Luchko, N. D. Pinchuk; publ. 11/25/2008 // Bul. 2008. No. 22. Sych O., Pinchuk N., Parkhomey A. et al. Morphology and properties of new porous biocomposites based on biogenic hydroxyapatite and synthetic calcium phosphates // Functional Materials. 2007. V. 14. N 4. P. 430 - 435. Haberko K., Bu & # 269; ko M., Brzezi & # 328; ska-Miecznik Ja et al. Natural hydroxyapatite - its behavior during heat treatment // Journal of Europian Ceramics Society. 2006. V. 26. P. 537 - 542.

The article can be purchased
electronic!

PDF format

Not on sale

UDK 666.3:546.41'33'18:61
Article type: Biomaterials
Make a request

Keywords

biogenic hydroxyapatite, hydroxyapatite ceramics, microstructure, biochemical activity, membrane-type substrates, carriers of cultured stem cells, cloning of fibroblast cells, cell adhesion, proliferative activity

Use the reference below to cite the publication

L. A. Ivanchenko, A. R. Parkhomei, A. G. Popandopulo, and A. V. Oberemko Prospects of using composite hydroxyapatite ceramic as a carrier of cultured stem cells. Steklo i keramika. 2011:84(11):31-34. (in Russ). UDK 666.3:546.41'33'18:61
Баннер снизу

Editor-in-chief

Lyudmila Vladimirovna Sokolova