'Institute of Electrical and Electronics Engineers (IEEE)'
Doi
Abstract
Non-thermal plasmas (NTPs) are known for their ability to induce thermal-free cytotoxic effects on cancer
cells. However, as the variety of NTP devices increases, comparison of their cytotoxic effect becomes increasingly
essential. In this work, we compare the cytotoxicity of three different radio-frequency NTPs. MDA-MB-231 triple
negative breast cancer cells are treated in suspension in DMEM culture medium by the effluents of a single radiofrequency
(RF) discharge device operating in three modes, namely the
and
modes of the capacitively coupled
radio-frequency (CCRF) discharge and a RF plasma jet mode. All three discharge modes reduce the proliferative
capacity of MDA-MB-231 cells, but the treatment time required to reach the same efficacy is more than ten times
longer using the
and the
modes than using the jet mode. In all cases, using the appropriate treatment time,
cells exhibit an impaired proliferation and eventually start to show signs of cell death (about 48 h after treatment).
The three discharge modes also induce nuclear DNA damages. Plasma-produced H2O2 was not found to contribute
to the cytotoxicity of the treatment. Furthermore, short-lived reactive species (gas phase or liquid phase species
with a lifetime below 1 s) are expected to play a dominant role over the long-lived reactive species in the anti-cancer
effect of all three discharge modes