Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts

Ming Yan; Philip Hartjen; Martin Gosau; Tobias Vollkommer; Audrey Laure Céline Grust; Sandra Fuest; Lan Kluwe; Simon Burg; Ralf Smeets; Anders Henningsen

doi:10.3390/ijms23010420

Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts

Standard

Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts. / Yan, Ming; Hartjen, Philip ; Gosau, Martin ; Vollkommer, Tobias ; Grust, Audrey Laure Céline ; Fuest, Sandra ; Kluwe, Lan ; Burg, Simon ; Smeets, Ralf ; Henningsen, Anders.

In: INT J MOL SCI, Vol. 23, No. 1, 420, 31.12.2021.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Yan, M, Hartjen, P , Gosau, M , Vollkommer, T , Grust, ALC , Fuest, S , Kluwe, L , Burg, S , Smeets, R & Henningsen, A 2021, 'Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts', INT J MOL SCI, vol. 23, no. 1, 420. https://doi.org/10.3390/ijms23010420

APA

Yan, M., Hartjen, P., Gosau, M., Vollkommer, T., Grust, A. L. C., Fuest, S., Kluwe, L., Burg, S., Smeets, R., & Henningsen, A. (2021). Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts. INT J MOL SCI, 23(1), [420]. https://doi.org/10.3390/ijms23010420

Vancouver

Yan M, Hartjen P , Gosau M , Vollkommer T , Grust ALC , Fuest S et al. Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts. INT J MOL SCI. 2021 Dec 31;23(1). 420. https://doi.org/10.3390/ijms23010420

Bibtex

@article{4ac22225ebad4a31b24f0cbc8d811a21,

title = "Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts",

abstract = "Cold plasma treatment increases the hydrophilicity of the surfaces of implants and may enhance their integration with the surrounding tissues. The implaPrep prototype device from Relyon Plasma generates cold atmospheric plasma via dielectric barrier discharge (DBD). In this study, titanium surfaces were treated with the implaPrep device for 20 s and assessed as a cell culture surface for fibroblasts. One day after seeding, significantly more cells were counted on the surfaces treated with cold plasma than on the untreated control titanium surface. Additionally, the viability assay revealed significantly higher viability on the treated surfaces. Morphological observation of the cells showed certain differences between the treated and untreated titanium surfaces. While conventional plasma devices require compressed gas, such as oxygen or argon, the implaPrep device uses atmospheric air as the gas source. It is, therefore, compact in size and simple to handle, and may provide a safe and convenient tool for treating the surfaces of dental implants, which may further improve the implantation outcome.",

author = "Ming Yan and Philip Hartjen and Martin Gosau and Tobias Vollkommer and Grust, {Audrey Laure C{\'e}line} and Sandra Fuest and Lan Kluwe and Simon Burg and Ralf Smeets and Anders Henningsen",

year = "2021",

month = dec,

day = "31",

doi = "10.3390/ijms23010420",

language = "English",

volume = "23",

journal = "INT J MOL SCI",

issn = "1661-6596",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "1",

}

RIS

TY - JOUR

T1 - Effects of a Novel Cold Atmospheric Plasma Treatment of Titanium on the Proliferation and Adhesion Behavior of Fibroblasts

AU - Yan, Ming

AU - Hartjen, Philip

AU - Gosau, Martin

AU - Vollkommer, Tobias

AU - Grust, Audrey Laure Céline

AU - Fuest, Sandra

AU - Kluwe, Lan

AU - Burg, Simon

AU - Smeets, Ralf

AU - Henningsen, Anders

PY - 2021/12/31

Y1 - 2021/12/31

N2 - Cold plasma treatment increases the hydrophilicity of the surfaces of implants and may enhance their integration with the surrounding tissues. The implaPrep prototype device from Relyon Plasma generates cold atmospheric plasma via dielectric barrier discharge (DBD). In this study, titanium surfaces were treated with the implaPrep device for 20 s and assessed as a cell culture surface for fibroblasts. One day after seeding, significantly more cells were counted on the surfaces treated with cold plasma than on the untreated control titanium surface. Additionally, the viability assay revealed significantly higher viability on the treated surfaces. Morphological observation of the cells showed certain differences between the treated and untreated titanium surfaces. While conventional plasma devices require compressed gas, such as oxygen or argon, the implaPrep device uses atmospheric air as the gas source. It is, therefore, compact in size and simple to handle, and may provide a safe and convenient tool for treating the surfaces of dental implants, which may further improve the implantation outcome.

AB - Cold plasma treatment increases the hydrophilicity of the surfaces of implants and may enhance their integration with the surrounding tissues. The implaPrep prototype device from Relyon Plasma generates cold atmospheric plasma via dielectric barrier discharge (DBD). In this study, titanium surfaces were treated with the implaPrep device for 20 s and assessed as a cell culture surface for fibroblasts. One day after seeding, significantly more cells were counted on the surfaces treated with cold plasma than on the untreated control titanium surface. Additionally, the viability assay revealed significantly higher viability on the treated surfaces. Morphological observation of the cells showed certain differences between the treated and untreated titanium surfaces. While conventional plasma devices require compressed gas, such as oxygen or argon, the implaPrep device uses atmospheric air as the gas source. It is, therefore, compact in size and simple to handle, and may provide a safe and convenient tool for treating the surfaces of dental implants, which may further improve the implantation outcome.

U2 - 10.3390/ijms23010420

DO - 10.3390/ijms23010420

M3 - SCORING: Journal article

C2 - 35008846

VL - 23

JO - INT J MOL SCI

JF - INT J MOL SCI

SN - 1661-6596

IS - 1

M1 - 420

ER -