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Publikācija: The Biomaterial Surface Nanoscaled Electrical Potential Promotes Osteogenesis of the Stromal Cell

Publication Type Full-text conference paper published in conference proceedings indexed in SCOPUS or WOS database
Funding for basic activity State funding for education
Defending: ,
Publication language English (en)
Title in original language The Biomaterial Surface Nanoscaled Electrical Potential Promotes Osteogenesis of the Stromal Cell
Field of research 2. Engineering and technology
Sub-field of research 2.9 Industrial biotechnology
Research platform None
Authors Jurijs Dehtjars
I. Khlusov
Y. Sharkeev
Nataļja Poļaka
V. Pichugin
M. Khlusova
Fjodors Tjuļkins
Viktorija Vendiņa
E. Legostaeva
L. Litvinova
Keywords Human mesenchymal cells, Oeteogsteogenesis, Surface electrical potential, Surface morphology
Abstract The calcium phosphate coating was provided onto the titanium substrate because of the nanoarc coatings technology. Both surface morphology and electrical charge of the coating were measured at the nano/micro-scaled lateral resolution. The negative electrical potential was typical for sockets, however the positive one to the peaks of the roughness. The cells were mainly attached at the negatively charged sockets. The cells expressed both osteocalcin and alkaline phosphatase that are the osteoblastic molecular markers.
DOI: 10.1007/978-981-10-9023-3_25
Hyperlink: https://link.springer.com/chapter/10.1007%2F978-981-10-9023-3_25 
Reference Dehtjars, J., Khlusov, I., Sharkeev, Y., Poļaka, N., Pichugin, V., Khlusova, M., Tjuļkins, F., Vendiņa, V., Legostaeva, E., Litvinova, L. The Biomaterial Surface Nanoscaled Electrical Potential Promotes Osteogenesis of the Stromal Cell. In: IFMBE Proceedings. Vol.68/3: World Congress on Medical Physics and Biomedical Engineering (WC 2018), Czech Republic, Prague, 3-8 June, 2018. Singapore: Springer Nature Singapore, 2019, pp.139-142. ISBN 978-981-10-9022-6. e-ISBN 978-981-10-9023-3. ISSN 1680-0737. e-ISSN 1433-9277. Available from: doi:10.1007/978-981-10-9023-3_25
Additional information Citation count:
  • Scopus  0
ID 27607