SELECTIVE OSTEOBLASTIC CELL MICRO-ARRAYS ON DIAMOND FILMS
Bohuslav Rezek, Lenka Michalíková, Egor Ukraintsev, Alexander Kromka, Marie Kalbacova
2009
Abstract
Unique combination of chemical and biocompatible properties with semiconducting properties makes diamond an attractive material for merging solid state and biological systems. Microscopic chemical patterning of diamond films by hydrogen and oxygen surface atoms is used for self-assembly of human osteoblastic cells into micro-arrays. The cell adhesion and assembly on the diamond is further controlled and optimized by cell and protein (fetal bovine serum - FBS) concentration. The cells are characterized by fluorescence microscopy of actin fibers and nuclei. The protein adsorption is studied by atomic force microscopy (AFM). The cells are arranged into arrays on O-terminated patterns. The best cell selectivity is achieved for the lowest cell concentrations of 2500 cells/cm2. Higher cell concentrations enable to colonize unfavorable H-terminated regions due to mutual cell communication. Based on AFM, the proteins are present on both H- and O-terminated surfaces, however, pronounced differences in the thickness, surface roughness, morphology, and phase images indicate different conformation of the proteins and hence the cell selectivity. There is no cell selectivity when no protein is supplemented in the medium. These results may be applicable in tissue engineering, implants, bio-electronics, and biotechnology in general.
References
- Bacakova, L., Grausova, L., Vacik, J., Franczek A., Blazewicz, S., Kromka, A., Vanecek, M. & Svorcik, V. (2007). Improved adhesion and growth of human osteoblast-like MG 63 cells on biomaterials modified with carbon nanoparticles. Diamond and Related Materials, 16, 2133-2140.
- Bajaj, P., Akin, D., Gupta, A., Sherman, D., Shi, B., Auciello, O. & Bashir, R. (2007). Ultrananocrystalline diamond film as an optimal cell interface for biomedical applications. Biomedical Microdevices, 9, 787-794.
- Browne, M. M., Lubarsky, G. V., Davidson, M. R. & Bradley, R. H. (2004). Protein adsorption onto polystyrene surfaces studied by XPS and AFM. Surface Science, 553, 155-167.
- Garrido, A.J., Nebel, C. E., Todt, R., Roesel, G., Amann, M. -C. & Stutzmann, M. (2003). Fabrication of inplane gate transistors on hydrogenated diamond surfaces. Applied Physics Letters, 82, 988-990.
- Kalbacova, M., Kalbac, M., Dunsch, L., Kromka, A., Vanecek, M., Rezek, B., Hempel, U. & Kmoch, S. (2007a). The effect of SWCNT and nano-diamond films on human osteoblast cells. Physica status solidi (b), 244, 4356-4359.
- Kalbacova, M., Roessler, S., Hempel, U., Tsaryk, R., Peters, K., Scharnweber, D., Kirkpatrick, C. J., & Dieter, P. (2007b). The effect of electrochemically simulated titanium cathodic corrosion products on ROS production and metabolic activity of osteoblasts and monocytes/macrophages. Biomaterials, 28, 3263- 3272.
- Kalbacova, M., Michalikova, L., Baresova, V., Kromka, A., Rezek, B. & Kmoch, S. (2008). Adhesion of osteoblasts on chemically patterned nanocrystalline diamonds. In press in Physica status solidi (b).
- Kozak, H., Kromka, A., & Rezek, B. (2008). Enhancing nanocrystalline diamond surface conductivity by deposition temperature and chemical post-processing. Submitted in Physica status solidi (a).
- Kromka, A., Rezek, B., Remes, Z., Michalka, M., Ledinsky, M., Zemek, J., Potmesil, J. & Vanecek, M. (2008). Formation of continuous nanocrystalline diamond layer on glass and silicon at low temperatures. In press in Chemical Vapor Deposition.
- Liu, X., Lim, J. Y. F., Donahue, H. J., Dhurjati, R., Mastro, A. M. & Vogler, E. A. (2007). Influence of substratum surface chemistry/energy and topography on the human fetal osteoblastic cell line hFOB 1.19: Phenotypic and genotypic responses observed in vitro. Biomaterials, 28, 4535-4550.
- Maier, F., Ristein, J. & Ley, L. (2001). Electron affinity of plasma-hydrogenated and chemically oxidized diamond (100) surfaces. Physical Review B, 64, 165411.
- Michalikova, L., Rezek, B., Kromka, A., Kozak, H., Grausova, L., Bacakova, L., Vanecek, M., Kocka, J. & Kalbacova, M. (2008). Selective Adhesion and Arrangement of osteoblast-like cells on hydrophilic and hydrophobic nanocrystalline diamond micropatterns. Submitted to Thin Solid Films.
- Nebel, C. E. (2003). From gemstone to semiconductor. Nature Materials, 2, 431-432.
- Popov, C., Kulisch, W., Reithmaier, J., Dostalova, T., Jelinek, M., Anspach, N. & Hammann, C. (2007). Bioproperties of nanocrystalline diamond/amorphous carbon composite films. Diamond and Related Materials, 16, 735-739.
- Potocky, S, Kromka, A., Potmesil, J., Remes, Z., Vorlicek, V., Vanecek, M., & Michalka, M. (2007). Investigation of nanocrystalline diamond films grown on silicon and glass at substrate temperature below 400°C. Diamond and Related. Materials, 16, 744-747.
- Rezek, B., & Nebel, C. E. (2006a). Electronic properties of plasma hydrogenated diamond surfaces: A microscopic study. Diamond and Related Materials, 15, 1374-1377.
- Rezek, B., Shin, D., Nakamura, T. & Nebel, C. E. (2006b). Geometric properties of covalently bonded DNA on single-crystalline diamond. Journal of American Chemical Society, 128, 3884-3885.
- Rezek, B., Shin, D., Uetsuka, H. & Nebel, C. E. (2007a) Microscopic diagnostics of DNA molecules on monocrystalline diamond. Physica status solidi (a), 204, 2888-2897.
- Rezek, B., Shin, D.& Nebel, C. E. (2007b). Properties of hybridized DNA arrays on single-crystalline undoped and boron-doped (100) diamonds studied by atomic force microscopy in electrolytes. Langmuir, 23, 7626- 7633.
- Rezek, B., Shin, D., Watanabe, H. & Nebel, C. E. (2007c). Intrinsic hydrogen-terminated diamond as ionsensitive field effect transistor. Sensors and Actuators B, 122, 596-599.
- Shakenraad, J. M., & Busscher, H. J. (1989). Cell-polymer interactions:the influence of protein adsorption. Colloids and Surfaces, 42, 331-343.
- Song, K. S., Hiraki, T., Umezawa, H. & Kawarada, H. (2007). Miniaturized diamond field-effect transistors for application in biosensors in electrolyte solution. Applied Physics Letters, 90, 063901.
- Tachiki, M., Kaibara, Y., Sumikawa, Y., Shigeno, M., Banno, T., Song K. S., Umezava, H. & Kawarada, H. (2003). Diamond nanofabrication and characterization for biosensing application. Physica status solidi (a), 199, 39-43.
- Tang, L., Tsai, C., Gerberich, W. W., Kruckeberg, L. & Kania, D. R. (1995). Biocompatibility of chemicalvapour-deposited diamond. Biomaterials, 16, 483-488.
- Ukraintsev, E. V., Kiselev, G. A., Kudrinskii, A. A., Lisichkin, G. V. & Yaminskii, I. V. (2007). Formation of lysoyzme fibrils on a solid support. Polymer Science, 49, 6-9.
- Yang, W., Auciello, O., Butler, J. E., Cai, W., Carlisle, J. A., Gerbi, J. E:, Gruen. D. M., Knickerbocker, T., Lasseter, T. L., Russell, J. N. Jr., Smith, L. M. & Hamers, R. J. (2002). DNA-modified nanocrystalline diamond thin-films as stable, biologically active substrates. Nature Materials, 1, 253-257.
- Yang, W., Butler, J. E., Russell, J. N. & Hamers, R. J. (2004). Interfacial electrical properties of DNAmodified diamond thin films: Intrinsic response and hybridization-induced field effects. Langmuir, 20, 6778-6787.
- Zemek, J., Houdkova, J. Lesiak, B., Jablonski, A., Potmesil, J., & Vanecek, M. (2006). Electron spectroscopy of nanocrystalline diamond surfaces. Journal of Optoelectronics and Advanced Materials, 8, 2133-2138.
- Zeng, H., Chittur, K. K. & Lacefield, W. R. (1999). Analysis of bovine serum albumin adsorption on calcium phosphate and titanium surfaces. Biomaterials, 20, 377-384.
Paper Citation
in Harvard Style
Rezek B., Michalíková L., Ukraintsev E., Kromka A. and Kalbacova M. (2009). SELECTIVE OSTEOBLASTIC CELL MICRO-ARRAYS ON DIAMOND FILMS . In Proceedings of the International Conference on Biomedical Electronics and Devices - Volume 1: BIODEVICES, (BIOSTEC 2009) ISBN 978-989-8111- 64-7, pages 347-354. DOI: 10.5220/0001434203470354
in Bibtex Style
@conference{biodevices09,
author={Bohuslav Rezek and Lenka Michalíková and Egor Ukraintsev and Alexander Kromka and Marie Kalbacova},
title={SELECTIVE OSTEOBLASTIC CELL MICRO-ARRAYS ON DIAMOND FILMS},
booktitle={Proceedings of the International Conference on Biomedical Electronics and Devices - Volume 1: BIODEVICES, (BIOSTEC 2009)},
year={2009},
pages={347-354},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0001434203470354},
isbn={978-989-8111- 64-7},
}
in EndNote Style
TY - CONF
JO - Proceedings of the International Conference on Biomedical Electronics and Devices - Volume 1: BIODEVICES, (BIOSTEC 2009)
TI - SELECTIVE OSTEOBLASTIC CELL MICRO-ARRAYS ON DIAMOND FILMS
SN - 978-989-8111- 64-7
AU - Rezek B.
AU - Michalíková L.
AU - Ukraintsev E.
AU - Kromka A.
AU - Kalbacova M.
PY - 2009
SP - 347
EP - 354
DO - 10.5220/0001434203470354