TY - JOUR ID - SisLab2885 UR - http://iopscience.iop.org/journal/0963-0252 IS - 1 A1 - Endre, J Szili A1 - Jun-Seok, Oh A1 - Fukuhara, Hideo A1 - Rishab, Bhatia A1 - Nishtha, Gaur A1 - Nguyen, Kien Cuong A1 - Sung-Ha, Hong A1 - Ito, Satsuki A1 - Ogawa, Kotaro A1 - Kawada, Chiaki A1 - Taro, Shuin A1 - Masayuki, Tsuda A1 - Furihata, Matsuo A1 - Kurabayashi, Atsushi A1 - Hiroshi, Furuta A1 - Ito, Masafumi A1 - Keiji, Inoue A1 - Akimitsu, Hatta A1 - Robert D, Short Y1 - 2018/01// N2 - Cold atmospheric plasmas have attracted significant worldwide attention for their potential beneficial effects in cancer therapy. In order to further improve the effectiveness of plasma in cancer therapy, it is important to understand the generation and transport of plasma reactive species into tissue fluids, tissues and cells, and moreover the rates and depths of delivery, particularly across physical barriers such as skin. In this study, helium (He) plasma jet treatmentof a 3D cancer tumour, grown on the back of a live mouse, induced apoptosis within the tumour to a depth of 2.8 mm. The He plasma jet was shown to deliver reactive oxygen species through the unbroken skin barrier before penetrating through the entire depth of the tumour. The depth and rate of transport of He plasma jet generated H2O2, NO3? and NO2?, as well as aqueous oxygen [O2(aq)], was then tracked in an agarose tissue model. This provided an approximation of the H2O2, NO3?, NO2? and O2(aq) concentrations that might have been generated during the He plasma jet treatment of the 3D tumour. It is proposed that the He plasma jet can induce apoptosis within a tumour by the ?deep? delivery of H2O2, NO3? and NO2? coupled with O2(aq); the latter raising oxygen tension in hypoxic tissue. Keywords: tissue oxygenation, tissue model, plasma jet, hypoxia, hyperbaric medicine, reactive oxygen species (ROS) and reactive nitrogen species (RNS), cancer therapy PB - IOP Science JF - Plasma Sources Science and Technology VL - 27 SN - 0963-0252 TI - Modelling the helium plasma jet delivery of reactive species into a 3D cancer tumour SP - 014001 AV - public EP - 0140016 ER -