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The adhesion of human dermal fibroblasts on anodized nanotube-layered titanium, modified for implantology application
- Authors: Fadeyev F.A.1, Khrunyk Y.Y.2,3, Belikov S.V.2, Lugovets D.V.1, Gubaeva O.V.1, Karabanalov M.S.2, Leontyev S.L.1, Popov А.А.2
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Affiliations:
- GAUZ SO Center of specialized types of medical care Institute for Medical Cell Technologies
- Ural Federal University
- Institute of High Temperature Electrochemistry of the Ural Branch of the Russian Academy of Sciences
- Issue: Vol 486, No 1 (2019)
- Pages: 123-126
- Section: Cell biology
- URL: https://journals.eco-vector.com/0869-5652/article/view/13314
- DOI: https://doi.org/10.31857/S0869-56524861123-126
- ID: 13314
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Abstract
Anodization of titanium implants is accompanied by the formation of titanium oxide nanotubes improving osseointegration. An excessive fibroblast adhesion on the surface might lead to the formation of fibrous capsule resulting in implant rejection. In our research, we demonstrated that the adhesion activity of human dermal fibroblasts on anodized surface was not elevated, which is promising for the use of titanium with nanotube-layered surface for implantology.
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About the authors
F. A. Fadeyev
GAUZ SO Center of specialized types of medical care Institute for Medical Cell Technologies
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 22a, Karl Marks street, Ekaterinburg, 620026
Yu. Ya. Khrunyk
Ural Federal University; Institute of High Temperature Electrochemistry of the Ural Branch of the Russian Academy of Sciences
Author for correspondence.
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 51, Lenina ave., Ekaterinburg, 620000; 22, S. Kovalevskaya street, Ekaterinburg, 620990
S. V. Belikov
Ural Federal University
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 51, Lenina ave., Ekaterinburg, 620000
D. V. Lugovets
GAUZ SO Center of specialized types of medical care Institute for Medical Cell Technologies
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 22a, Karl Marks street, Ekaterinburg, 620026
O. V. Gubaeva
GAUZ SO Center of specialized types of medical care Institute for Medical Cell Technologies
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 22a, Karl Marks street, Ekaterinburg, 620026
M. S. Karabanalov
Ural Federal University
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 51, Lenina ave., Ekaterinburg, 620000
S. L. Leontyev
GAUZ SO Center of specialized types of medical care Institute for Medical Cell Technologies
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 22a, Karl Marks street, Ekaterinburg, 620026
А. А. Popov
Ural Federal University
Email: juliakhrunyk@yahoo.co.uk
Russian Federation, 51, Lenina ave., Ekaterinburg, 620000
References
- Liu X., Chen S., Tsoi J.K.H., Matinlinna J.P. // Regen. Biomater. 2017. V. 4. № 5. P. 315-323.
- Civantos A., Martinez-Campos E., Ramos V., Elvira C., Gallardo A., Abarrategi A. // ACS Biomater. Sci. Eng. 2017. V. 3. P. 1245-1261.
- Bhosle S.M., Friedrich C.R. // Nanotechnology. 2017. V. 28. № 40. 405603. doi: 10.1088/1361-6528/aa8399
- Zhang Y., Luo R., Tan J., Wang J., Lu X., Qu S., Weng J., Feng B. // Regen. Biomater. 2017. V. 4. № 2. P. 81-87.
- Das K., Bose S., Bandyopadhyay A. // J. Biomed. Mat. Res. A. 2009. V. 90. № 1. P. 225-237.
- Villar C., Huynh-Ba G., Mills M.P., Cochran D.L. // Endodontic Topics. 2012. V. 25. P. 44-62.
- Gittens R.A., Olivares-Navarrete R., Schwartz Z., Boyan B.D. // Acta Biomater. 2014. V. 10. № 8. P. 3363-3371.
- Carver W., Esch A.M., Fowlkes V., Goldsmith E.C. / The Immune Response to Implanted Materials and Devices. Switzerland: Springer Int. Publ., 2017. 241 p.
- Wei H., Wu S., Feng Z., Zhou W., Dong Y., Wu G., Bai S., Zhao Y. // Int. J. Nanomedicine. 2012. V. 7. P. 1091-1100.
- Smith B.S., Yoriya S., Johnson T., Popat K.C. // Acta Biomater. 2011. V. 7. № 6. P. 2686-2696.
- Lin S.P., Huang S.Y., Chen S.F., Vinzons L.U., Ciou J.Y., Wong P.J. // ACS Appl. Mater. Interfaces. 2014. V. 6. № 15. P. 12 071-12 082.
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