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Surface modifications of biomaterial with different cold plasma reactors to improve cell adhesion

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
There is a growing trend in the engineering of biomaterials, focusing on surface modifications of biomaterials to improve their mechanical strength, corrosion resistance, and biological properties. Cold plasma treatment may improve biological properties of biomaterials for biomedical applications by enhancing their integration with host tissue. This study investigated the influence of different cold plasma treatments on the surface properties of a polysaccharides- -based biomaterial to improve cell adhesion to its surface. The samples were subjected to plasma treatment using three different reactors operating at atmospheric pressure: gliding arc discharge (GAD) reactor, dielectric barrier discharge (DBD) plasma jet, and DBD surface reactor. Next, surface chemistry of the biomaterial after plasma treatment was determined by ATR-FTIR analysis. Furthermore, a cell adhesion assay on the samples was carried out using normal human skin fibroblasts (BJ cell line). The attenuated total reflection Fourier transform infrared analysis (ATR- -FTIR) showed that new potential functional groups could be formed on the material surface after plasma treatment. However, plasma treatment of the samples did not enhance cell adhesion to the surface of the polysaccharides-based biomaterial. Thus, the obtained results indicate that plasma treatment using GAD reactor, DBD plasma jet, and DBD surface reactor was not effective for surface modification and cell responses.
Rocznik
Strony
2--6
Opis fizyczny
Bibliogr. 12 poz., rys., wykr., tab., zdj.
Twórcy
  • Institute of Electrical Engineering and Electrotechnologies, Lublin University of Technology, Nadbystrzycka 38a, 20-618 Lublin, Poland
  • Independent Unit of Tissue Engineering and Regenerative Medicine, Medical University of Lublin, Chodzki 1 Str., 20-093 Lublin, Poland
  • Independent Unit of Tissue Engineering and Regenerative Medicine, Medical University of Lublin, Chodzki 1 Str., 20-093 Lublin, Poland
  • Institute of Electrical Engineering and Electrotechnologies, Lublin University of Technology, Nadbystrzycka 38a, 20-618 Lublin, Poland
  • Institute of Electrical Engineering and Electrotechnologies, Lublin University of Technology, Nadbystrzycka 38a, 20-618 Lublin, Poland
  • Independent Unit of Tissue Engineering and Regenerative Medicine, Medical University of Lublin, Chodzki 1 Str., 20-093 Lublin, Poland
  • Institute of Electrical Engineering and Electrotechnologies, Lublin University of Technology, Nadbystrzycka 38a, 20-618 Lublin, Poland
  • Independent Unit of Tissue Engineering and Regenerative Medicine, Medical University of Lublin, Chodzki 1 Str., 20-093 Lublin, Poland
Bibliografia
  • [1] Kazimierczak P., Przekora A.: Osteoconductive and osteoinductive surface modifications of biomaterials for bone regeneration: A concise review. Coatings 10(10) (2020) 971. doi:10.3390/ coatings10100971
  • [2] Yan M., Hartjen P., Gosau M., et al.: Effects of a novel cold atmospheric plasma treatment of titanium on the proliferation and adhesion behavior of fibroblasts. Int J Mol Sci. 23(1) (2022) doi:10.3390/ijms23010420
  • [3] Przekora A.: The summary of the most important cell-biomaterial interactions that need to be considered during in vitro biocompatibility testing of bone scaffolds for tissue engineering applications. Mater Sci Eng C. 97 (2019) 1036-1051. doi:10.1016/j.msec.2019.01.061
  • [4] Keselowsky B.G., Collard D.M., García A.J.: Surface chemistry modulates fibronectin conformation and directs integrin binding and specificity to control cell adhesion. J Biomed Mater Res Part A. 66(2) (2003) 247-259. doi:10.1002/jbm.a.10537
  • [5] Pawłat J., Terebun P., Kwiatkowski M., et al.: Evaluation of oxidative species in gaseous and liquid phase generated by mini - gliding arc discharge. Plasma Chem Plasma Process. 39(3) (2019) 627-642. doi:10.1007/s11090-019-09974-9
  • [6] Przekora A., Audemar M., Pawłat J., et al.: Positive effect of cold atmospheric nitrogen plasma on the behavior of mesenchymal stem cells cultured on a bone scaffold containing iron oxide-loaded silica nanoparticles catalyst. Int J Mol Sci. 21 (2020) 4738. doi:10.3390/ ijms21134738
  • [7] Wójcik M., Kazimierczak P., Benko A., Palka K., Vivcharenko V., Przekora A.: Superabsorbent curdlan-based foam dressings with typical hydrocolloids properties for highly exuding wound management. Mater Sci Eng C 124 (2021) 112068. doi:10.1016/j. msec.2021.112068
  • [8] Kwiatkowski M., Terebun P., Mazurek P., Pawłat J.: Wettability of polymeric materials after dielectric barrier discharge atmospheric- -pressure plasma jet treatment. Sensors Mater. 30(5) (2018) 1207- 1212. doi:10.18494/SAM.2018.1890
  • [9] Zarrintaj P., Manouchehri S., Ahmadi Z., et al.: Agarose-based biomaterials for tissue engineering. Carbohydr Polym. 187 (2018) 66-84. doi:10.1016/j.carbpol.2018.01.060
  • [10] Liu C., Bai J., Wang Y., et al.: The effects of three cold plasma treatments on the osteogenic activity and antibacterial property of PEEK. Dent Mater. 37(1) (2021) 81-93. doi:10.1016/j.dental. 2020.10.007
  • [11] Teraoka F., Nakagawa M., Hara M.: Surface modification of poly(L-lactide) by atmospheric pressure plasma treatment and cell response. Dent Mater J. 25(3) (2006) 560-565. doi:10.4012/ dmj.25.560
  • [12] Hage M., Khelissa S., Akoum H., Chihib N.E., Jama C.: Cold plasma surface treatments to prevent biofilm formation in food industries and medical sectors. Appl Microbiol Biotechnol. 106(1) (2022) 81-100. doi:10.1007/s00253-021-11715-
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu „Społeczna odpowiedzialność nauki” - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c89922a1-11dc-439b-abca-bbb46cede6c9
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