DocumentCode
1519068
Title
Influence of Cell Type, Initial Concentration, and Medium on the Inactivation Efficiency of Low-Temperature Plasma
Author
Laroussi, Mounir ; Karakas, Erdinc ; Hynes, Wayne
Author_Institution
Old Dominion Univ., Norfolk, VA, USA
Volume
39
Issue
11
fYear
2011
Firstpage
2960
Lastpage
2961
Abstract
It is now well known that low-temperature plasmas can inactivate bacteria effectively. At low doses, these plasmas can also help in the proliferation of healthy fibroblasts and detach damaged cells without causing necrosis. The combination of these characteristics leads to the possibility of using plasmas in biomedical applications such as wound healing. Although only limited understanding is available as to the mechanisms whereby plasmas interact with cells (prokaryotic or eukaryotic), it is now well established that the effects of plasmas on biological cells depend on the cell type, the cell concentration, and the medium supporting them. In this paper, we present clear visual evidence of these dependencies in the case of bacteria. Through simple imaging, we show that the size and shape of the inactivation zone depend on the type of bacteria, their initial concentrations, and the medium supporting the cells.
Keywords
biological effects of ionising radiation; cellular biophysics; microorganisms; plasma applications; radiation therapy; wounds; bacteria inactivation; biomedical applications; cell concentration effects; cell supporting medium effects; cell type effects; damaged cell detachment; eukaryotic cells; healthy fibroblast proliferation; inactivation efficiency; inactivation zone shape; inactivation zone size; low temperature plasma; plasma-cell interaction; prokaryotic cells; wound healing; Biological cells; Helium; Imaging; Microorganisms; Plasmas; Shape; Wounds; Bacteria sterilization; cold plasma; plasma discharge; plasma jets; plasma medicine;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2011.2143731
Filename
5770233
Link To Document