Oral Presentations
David GRAVESUniversity of California
Berkeley, CA,
USA[O-1] Biological effects of cold atmospheric plasma: Current status
Pietro RANIERI
Drexel University
Camden, NJ,
USA[O-2] Propagation of plasma effects into tissue: Cell-to-cell signaling or direct ROS effects?
Ryugo TERO
Toyohashi University of Technology
Toyohashi,
JAPAN[O-3] Degeneration of artificial cell membranes induced by plasma-generated reactive oxygen species
Kristian WENDE
INP Greifswald
Greifswald,
GERMANY[O-4] On the chemistry of remote effects of non-thermal plasmas
Ilaria TRIZIO
University of Bari
Bari,
ITALY[O-5] DBD-generated RONS in biological liquids for 2D and 3D in vitro studies on eukaryotic cells
Sander BEKESCHUS
INP Greifswald
Greifswald,
GERMANY[O-6] Cold physical plasma-treated medium demonstrates antitumor activity against pancreatic cancer cells in vitro and in vivo
Julie CHAUVIN
Paul Sabatier University
Toulouse,
FRANCE[O-7] Investigation of cell death mechanisms of 3D multicellular tumor spheroids (MCTS) after contact with a plasma activated medium
Kenji ISHIKAWA
Nagoya University
Nagoya,
JAPAN[O-8] Metabolic profiles on glioblastoma (U251SP) modified in plasma-activated medium (PAM) cultivation
Ryo FURUTA
Nagoya University
Nagoya,
JAPAN[O-9] Dynamic behavior of HeLa cells in plasma-activated medium
Pierre-Marie GIRARD
Paris-Sud University
Orsay,
FRANCE[O-10] Synergistic effect of H2O2 and NO2 in cell death induced by cold atmospheric He plasma
Eun Ha CHOI
Kwangwoon University
Seoul,
SOUTH KOREA[O-11] Plasma activated water Induced the activation of FOXO3 signaling caused cell death of squamous (A349) carcinoma
Jörn WINTER
INP Greifswald
Greifswald,
GERMANY[O-12] Challenges and solutions on the way to a deployable plasma endoscope
Kerstin HORN
INNOVENT e.V.
Jena,
GERMANY[O-13] Screening test of a new pulsed mini-plasma-jet for medical application
Toshihiro TAKAMATSU
Kobe University
Kobe,
JAPAN[O-14] Development of atmospheric non-thermal plasma sources created by 3D printer for medical application
Mário JANDA
Comenius University
Bratislava,
SLOVAKIA[O-15] Antimicrobial NOx generated by transient spark in atmospheric dry air and air with water electrospray
Thibault DARNY
University of Orleans
Orleans,
FRANCE[O-16] Conductive target influence on helium metastable production in a µs plasma gun discharge
Giovanni BUSCO
University of Orleans
Orleans,
FRANCE[O-17] Study of chemico-physical properties of a He plasma gun in the context of skin physioxia for cosmetical applications
Tetsuji SHIMIZU
Terraplasma GmbH
Garching,
GERMANY[O-18] Surface micro-discharge plasma for disinfection
Takehiko SATO
Tohoku University
Sendai,
JAPAN[O-19] Development of small sterilization device using LT plasma flow at atmospheric pressure
Olga STEPANOVA
Saint Petersburg State University
Saint Petersburg,
RUSSIA[O-20] Bactericidal action of DBD plasma jet in helium at varying average discharge power
Masafumi JINNO
Ehime University
Matsuyama,
JAPAN[O-21] Synergistic effect between electrical and chemical factors in plasma gene transfection
Yoko YAMANISHI
Kyushu University
Fukuoka,
JAPAN[O-22] Gene transfer by circulating plasma-bubble flow
Uroš CVELBAR
Jožef Stefan Institute
Ljubljana,
SLOVENIA[O-23] Safety level of atmospheric pressure jet skin treatment
Emilio MARTINES
Consorzio RFX
Padova,
ITALY[O-24] Plasma treatment of sheep skin wounds in veterinary medicine
Yuzuru IKEHARA
AIST
Tsukuba,
JAPAN[O-25] Mechanism of blood coagulation induced by plasma treatment in addition to the acceleration of the natural blood coagulation process
Mark JACOFSKY
Plasmology4
Scottsdale, AZ,
USA[O-26] Hemostasis with tissue preservation using the Plaz4™ atmospheric pressure plasma jet in vivo
Michael Gangyu KONG
Xi'an Jiaotong University
Xi'an,
CHINA[O-27] An evaluation of a CAP-based treatment of psoriasis
EP Technologies LLC
Akron, OH,
USA[O-28] Non-thermal DBD plasma for enhancing intracellular DNA delivery
Gregory FRIDMAN
Drexel University
Camden, NJ
USA[O-29] Non-equilibrium gliding arc discharge plasma-activated water in plasma agriculture: Pathogen control
Dongping LIU
Dalian Nationalities University
Dalian,
CHINA[O-30] Atmospheric-pressure air microplasmas for agricultural applications
Kyoung Suk OH
National Fusion Research Institute
Gunsan,
SOUTH KOREA[O-31] Effect for the GABA accumulation of brown rice using the plasma and the plasma discharged water
Stanislav KYZEK
Comenius University
Bratislava,
SLOVAKIA[O-32] Monitoring of the potential genotoxic effect of low temperature plasma in pea seeds
Thomas von WOEDTKE
INP Greifswald
Greifswald,
GERMANY[O-33] The redox potential in liquids as possible parameter to estimate and compare biological plasma effects
Fanny GIRARD
University of Pau
Pau,
FRANCE[O-34] Combining spectro-electrochemical methods to characterize the RONS generated in physiological buffer exposed to diffuse cold atmospheric plasmas
Helena JABLONOWSKI
INP Greifswald
Greifswald,
GERMANY[O-35] Plasma induced reactive oxygen species in biorelevant liquids: different species have various origins
Barbora TARABOVÁ
Comenius University
Bratislava,
SLOVAKIA[O-36] Challenges of RONS detection in air plasma activated solutions by colorimetric and fluorescent based assays
Daniela BOEHM
Dublin Institute of Technology
Dublin,
IRELAND[O-37] Plasma activated liquids show distinct biocidal effects between microbial and mammalian cells
Endre SZILI
University of South Australia
Adelaide,
AUSTRALIA[O-38] Effect of sparging in plasma medicine
Thomas Jefferson University
Philadelphia, PA,
USA[O-39] Tissue growth, repair and regeneration due to ASK1 inhibition is further enhanced by cold atmospheric dielectric barrier discharge treatment
Shota SASAKI
Tohoku University
Sendai,
JAPAN[O-40] Interaction between plasma-activated calcium ion channel and uptake of drug-simulated molecule
Oleg LUNOV
Czech Academy of Sciences
Prague,
CZECHIA[O-41] Towards the understanding of non-thermal plasma effects on bacteria and mammalian cells
Augusto STANCAMPIANO
University of Bologna
Bologna,
ITALY[O-42] Effect of cold atmospheric plasma on human papillomavirus type 16 infected keratinocytes
Alibi BAITUKHA
University of Pierre and Marie Curie
Paris,
FRANCE[O-43] Carboplatin drug delivery systems prepared by catalyst free PECVD reactor for biomedical application
Michael R. WERTHEIMER
Polytechnique Montreal
Montreal,
CANADA[O-44] Chemical aspects of endothelial cell adhesion and growth for vascular grafts
Anna LIGUORI
University of Bologna
Bologna,
ITALY[O-45] Non-equilibrium atmospheric pressure plasma technology for anti-CD 10 antibody immobilization on PLLA nanofibres
Farzaneh AREFI-KHONSARI
Universite of Pierre and Marie Curie
Paris,
FRANCE [O-46] Deposition of thin films using a transporting discharge at atmospheric pressure
Lukasz JABLONOWSKI
University of Greifswald
Greifswald,
GERMANY[O-47] Atmospheric pressure plasma application in the oral cavity: Short term experiments in mice
Bruno HONNORAT
University of Pierre and Marie Curie
Paris,
FRANCE[O-48] Therapeutic effect of cold atmospheric plasma on oral cavity squamous cell carcinomas
Hans-Robert METELMANN
University of Greifswald
Greifswald,
GERMANY[O-49] Cancer treatment and physical plasma: A clinical phase-I-study concept and first results
Kazue MIZUNO
Stanford University
Stanford, CA,
USA[O-50] Nanosecond pulsed streamer discharge delayed the tumor growth at unirradiated sites in vivo
Michael KEIDAR
George Washington University
Washington, DC,
USA[O-51] Toward understanding the selective anti-cancer capacity of cold atmospheric plasma - an aquaporins-based model
Nobuyuki SHIMIZU
International University of Health and Welfare
Tokyo,
JAPAN[O-52] Systematization of the mechanism by which plasma irradiation causes cell growth and tumor cell death
Ionuţ TOPALĂ
Alexandru Ioan Cuza University
Iaşi,
ROMANIA[O-53] Viability and cell biology for HeLa and VERO cells after exposure to low temperature air DBD plasma
Cristina CANAL
Polytechnic University of Catalonia
Barcelona,
SPAIN[O-54] Atmospheric pressure plasma jet selectivity towards bone cancer
Sybille HASSE
INP Greifswald
Greifswald,
GERMANY[O-55] Cold argon plasma as an adjuvant therapy option in progressive head and neck cancer - results of a preclinical study
Anne MAI-PROCHNOW
CSIRO
Lindfield,
AUSTRALIA[O-56] Cold plasma treatment of single- and mixed-species biofilms
Zuzana KOVAĽOVÁ
Comenius University
Bratislava,
SLOVAKIA[O-57] Biofilm thickness and biomass reduction after treatment with DC air corona discharges
Joanna PAWŁAT
Lublin University of Technology
Lublin,
POLAND[O-58] Comparison of RONS generation and biodecontamination by atmospheric pressure plasma sources: Transient spark, mini glide-arc and dielectric barrier discharge jet
Andrea COCHIS
University of Eastern Piedmont
Novara,
ITALY[O-59] Effective decontamination of soft reline-based oral cancer shutters by means of non-thermal atmospheric plasma
Utku Kürşat ERCAN
İzmir Kâtip Çelebi University
İzmir,
TURKEY[O-60] Evaluation of antimicrobial activity of nebulized plasma-treated liquids for control of ventilator associated pneumonia
Katrin RÖDDER
INP Greifswald
Greifswald,
GERMANY[O-61] Cold plasma treatment of murine cancer cells triggers immunogenic responses in splenocytes ex vivo
Yosky KATAOKA
RIKEN
Kobe,
JAPAN[O-62] Effect of atmospheric-pressure plasma irradiation on the central nervous system of adult rats
Julia BANDOW
Ruhr University
Bochum,
GERMANY[O-63] Plasma-based inactivation of proteins
Jan-Wilm LACKMANN
Ruhr University
Bochum,
GERMANY[O-64] Cysteine as a model for comparing the impact of plasmas on biological samples
Ji Hoon PARK
Kwangwoon University
Seoul,
SOUTH KOREA[O-65] Effect of cold atmospheric plasma and nanosecond pulsed plasma on protein folding and deactivation of drug resistance bacteria: Experimental and computational outlook
Liam O'NEILL
TheraDep
Palo Alto, CA,
USA[O-66] Deposition of biomolecules via non-thermal plasma devices
Simon MAHEUX
Luxembourg Institute of Science and Technology
Belvaux,
LUXEMBOURG[O-67] Effect of small unilamellar liposome composition on their degradation mechanism in physiological liquids by nanosecond pulsed cold atmospheric plasma under nitrogen atmosphere
Amanda LIETZ
University of Michigan
Ann Arbor, MI,
USA[O-68] Impact of electrode placement on RONS production in atmospheric pressure plasma jets
Maksudbek YUSUPOV
University of Antwerp
Antwerp,
BELGIUM[O-69] Effect of electric field on pore formation in model systems for lipid membrane and skin barrier: A molecular dynamics study
Tomoyuki MURAKAMI
Seikei University
Musashino,
JAPAN[O-70] Modelling of plasma interaction with gas-liquid interface
