Poster Sessions
Posters will be organized in three poster sessions and will be displayed in the lobby in front of the lecture rooms.
The poster numbers listed in the Conference Program booklet and in the Book of Abstracts will be attached to the poster panels.
The authors are requested to be present at their posters during the poster sessions.
Materials for poster mounting will be available on the poster board.
The preferable size for preparing the poster is A0 (portrait format: 84.1 cm (w) x 118.4 cm (h)).
Posters are requested to be removed by the presenters right after each poster session.
The organizers take no responsibility for leftover posters.
POSTER SESSION 1: Monday (Sep 5th) - Topics 1, 2, 4, 6, 7, 8, 9
POSTER SESSION 2: Tuesday (Sep 6th) - Topics 1, 2, 3, 4, 8, 9
POSTER SESSION 3: Thursday (Sep 8th) - Topics 1, 2, 3, 4, 5, 8, 10
Poster code: P[session number]-[poster number]-[topic]
= nominated for The Young Researcher Presentation Awards (YRPA) Poster Session 1 - Monday (Sep 5th)
TOPIC: 1. Medical treatment with plasmasNaoaki YOKOYAMA
Obihiro University, Obihiro,
JAPAN[P1-1-1] Effect of plasma-treatment on the in vitro growth of Trypanosoma brucei
Ihn HAN
Kwangwoon University, Seoul,
SOUTH KOREA[P1-2-1] Role of non-thermal atmospheric pressure bio-compatible plasma in bone tissue engineering and regeneration
Sander BEKESCHUS
INP Greifswald, Greifswald,
GERMANY[P1-3-1] A flow cytometry genotoxicity assay to evaluate the safety of cold physical plasma sources
Laura BARILLAS
COSTA RICA Institute of Technology, Cartago,
COSTA RICA[P1-4-1] Plasma medicine research in COSTA RICA: Overview of first steps
Uroš CVELBAR
Jožef Stefan Institute, Ljubljana,
SLOVENIA[P1-5-1] Localized plasma treatment for targeted intra-operative immobilization and demise of lens epithelial cells
Alexandr DEJNEKA
Czech Academy of Sciences, Prague,
CZECHIA[P1-6-1] Preclinical testing of non-thermal air plasma in veterinary medicine
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: RONS + oxidative stress
Juliana ŠIMONČICOVÁ
Slovak University of Technology, Bratislava,
SLOVAKIA[P1-7-2] Oxidative response to low temperature plasma exposure in Aspergillus flavus
Toshihiko EKI
Toyohashi University of Technology, Toyohashi,
JAPAN[P1-8-2] Development and characterization of the reporter gene assays in yeast for detecting oxidative stress and DNA damage
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: PAW/PAM and cells
Hachiro YASUDA
Toyohashi University of Technology, Toyohashi,
JAPAN[P1-9-2] Characterization of chemical species in plasma treated water essential for inactivation of cells and proteins
Hirokazu HARA
Gifu Pharmaceutical University, Gifu,
JAPAN[P1-10-2] Intracellular free zinc plays an important role in plasma-activated medium-induced cell death
Hiroshi HASHIZUME
Nagoya University, Nagoya,
JAPAN[P1-11-2] Selective killing of human breast cancer cells by plasma-activated medium
Yutaka KAMIMURA
Nagoya University Graduate School of Medicine, Nagoya,
JAPAN[P1-12-2] Plasma activated medium change ASCs cytokine profile
post-deadline update: presented by Hiromasa TANAKA
Yang PENG
Nagoya University Graduate School of Medicine, Nagoya,
JAPAN[P1-13-2] Plasma-activated medium inhibits metastatic tendency of ovarian cancer cells in vitro
Michael KEIDAR
George Washington University, Washington, DC,
USA[P1-14-2] Induction of apoptosis in human gastric carcinoma cancer cells by cold atmospheric plasma generated in water
Chae Bok LEE
Kwangwoon University, Seoul,
SOUTH KOREA[P1-15-2] Macrophage M1/M2 regulation by plasma activated NO-water
Anna MISEROCCHI
University of Bologna, Bologna,
ITALY[P1-16-2] Study of potential cytotoxicity on eukaryotic cells associated with the use of plasma activated liquids in dental applications
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Biomolecules
Ionuţ TOPALĂ
Alexandru Ioan Cuza University, Iaşi,
ROMANIA[P1-17-2] Direct exposure of amino acids and proteins powders to atmospheric pressure helium plasmas with impurities
Iulia-Elena VLAD
Babes-Bolyai University, Cluj-Napoca,
ROMANIA[P1-18-2] Protein modification at plasma - liquid interaction
Caitlin HESLIN
Dublin Institute of Technology, Dublin,
IRELAND[P1-19-2] Safety considerations for the application of cold plasma in medicine - cytotoxic/mutagenic potential
Andreas HELMKE
Fraunhofer IST, Göttingen,
GERMANY[P1-20-2] XPS study on the modification of amino acids by cold atmospheric plasma
Marie BRETON
Paris-Sud University, Orsay,
FRANCE[P1-21-2] Chemical modification of unsaturated lipids treated by atmospheric plasma jet
Hirofumi KURITA
Toyohashi University of Technology, Toyohashi,
JAPAN [P1-22-2] Evaluation methods of DNA strand breaks induced by exposure to an atmospheric pressure plasma
Shunsuke YOSHIZAWA
University of Tsukuba, Tsukuba,
JAPAN[P1-23-2] Biochemical mechanism of protein inactivation in aqueous solution by low temperature atmospheric plasma jet
Masaharu SHIRATANI
Kyushu University, Fukuoka,
JAPAN [P1-24-2] A comparative study for action of gamma and plasma irradiation dose on thermodynamics of protein
TOPIC: 4. Agricultural and food applications of plasmas
SUBTOPIC: Seeds
Katarína KUČEROVÁ
Comenius University, Bratislava,
SLOVAKIA[P1-25-4] The effect of cold air plasma activated water on germination and growth of wheat seeds
Veronika MEDVECKÁ
Comenius University, Bratislava,
SLOVAKIA[P1-26-4] The effect of atmospheric pressure plasma on soya beans
Anna ZAHORANOVÁ
Comenius University, Bratislava,
SLOVAKIA[P1-27-4] The effect of low-temperature plasma on the maize seeds: Germination improvement and microorganisms inactivation
Olga STEPANOVA
Saint Petersburg State University, Saint Petersburg,
RUSSIA[P1-28-4] Introduction to plasma agriculture: controlled parameters and some experimental procedures
Jean-Michel POUVESLE
University of Orléans, Orléans,
FRANCE [P1-29-4] Evaluation of plasma component effects in LTNTP seed treatments
Yeunsoo PARK
National Fusion Research Institute, Gunsan,
SOUTH KOREA[P1-30-4] The biological effects of surface dielectric barrier discharge on seed germination and plant growth with barley
Mansour KHORAM
Islamic Azad University, Borujerd,
IRAN[P1-31-4] Effect of low pressure radio frequency plasma on ajwain seed germination
TOPIC: 4. Agricultural and food applications of plasmas
SUBTOPIC: PAW application
Junghyun LIM
National Fusion Research Institute, Gunsan,
SOUTH KOREA[P1-32-4] Determination of activation time of PAW and its application to fresh-cut potato
Romolo LAURITA
University of Bologna, Bologna,
ITALY[P1-33-4] Plasma activated water (PAW) for grapevine yellows disease management
Romolo LAURITA
University of Bologna, Bologna,
ITALY[P1-34-4] Plasma activated water as sustainable tool to control bacterial disease severity on tomato plants
TOPIC: 6. Plasma-surface interactions and surface functionalizations for biomedical applications
Riccardo TONINI
University of Brescia, Brescia,
ITALY [P1-35-6] Cold atmospheric plasma (CAP) treatment to improve the bonding strength of adhesive-dentin interface in dental composite restoration
Anna LIGUORI
University of Bologna, Bologna,
ITALY [P1-36-6] Single step process for the co-deposition of nanocomposite antibacterial coatings using a non-equilibrium atmospheric pressure plasma jet
Pietro FAVIA
University of Bari, Bari,
ITALY [P1-37-6] Bio-composite coatings for biomedical applications
Alenka VESEL
Jožef Stefan Institute, Ljubljana,
SLOVENIA[P1-38-6] Surface modification of PET polymer in SO2/O2 plasma for improved cell adhesion
Ita JUNKAR
Jožef Stefan Institute, Ljubljana,
SLOVENIA [P1-39-6] Improving biocompatible properties of titanium implants by highly reactive oxygen plasma
Jaroslav KOUSAL
Charles University, Prague,
CZECHIA[P1-40-6] Etching of model thin films of biological contamination using low-temperature atmospheric plasma jet
Cristina CANAL
Polytechnic University of Catalonia, Barcelona,
SPAIN[P1-41-6] Plasma polymerization on β-TCP for the design of antibiotic delivery systems in bone repair surgery
Judit BUXADERA-PALOMERO
Technical University of Catalonia, Barcelona,
SPAIN[P1-42-6] Modulation of doxycycline release from titanium implants by a plasma polymerized polyethylene glycol coating
Kanupriya KHURANA
Technical University of Catalonia, Barcelona,
SPAIN [P1-43-6] Fundamental studies of plasma PEG coatings on bone bioceramics for drug release
Jang-Hsing HSIEH
Ming Chi University of Technology, New Taipei City,
TAIWAN [P1-44-6] Antibacterial properties and biocompatibility of Ta-(NCF) thin films
Tomy ABUZAIRI
Shizuoka University, Hamamatsu,
JAPAN[P1-45-6] Patterning of biomolecules onto carbon nanotube array via atmospheric pressure plasma jet
Hidehiko YASHIRO
AIST, Tsukuba,
JAPAN[P1-46-6] Enhanced bone-bonding of zirconia ceramics by femtosecond laser processing
TOPIC: 7. Fundamentals of atmospheric plasmas
Tomonori HOTTA
University of Tsukuba, Tsukuba,
JAPAN [P1-47-7] Time evolutions of the metastable helium atoms in a low energy atmospheric pressure plasma using a laser absorption spectroscopic measurement
post-deadline update: presented by Hajime SAKAKITA
Hiromasa YAMADA
University of Tsukuba, Tsukuba,
JAPAN [P1-48-7] Study on propagation mode (bullet or striation) of a low energy atmospheric pressure plasma
Ryo KUMAGAI
Tohoku University, Sendai,
JAPAN [P1-49-7] Observation of propagation process of negative streamer in water
Chen CHEN
Xi'an Jiaotong University, Xi'an,
CHINA [P1-50-7] Space- and time-resolved LIF measurement of absolute concentration of nitric oxide produced by atmospheric air surface plasma
Paolo SERI
University of Bologna, Bologna,
ITALY[P1-51-7] Geometry optimization of linear and annular plasma synthetic jet actuators for enhanced transport of reactive species
Florent SAINCT
INU Champollion, Albi,
FRANCE [P1-52-7] Experimental study of an asymmetric DBD APPJ
Sylvain ISÉNI
University of Orléans, Orléans,
FRANCE [P1-53-7] Electric field and ionization waves in pulsed atmospheric plasma streams (PAPS): complementary in situ diagnostics
TOPIC: 8. Plasma sources for biomedical applications
Antoine ROUSSEAU
École Polytechnique, Palaiseau,
FRANCE[P1-54-8] Dielectric losses in DBDs: correlation between in vitro and in vivo experiments with modeling
Paulien SMITS
Eindhoven University of Technology, Eindhoven,
the NETHERLANDS[P1-55-8] Considerations in designing and testing plasma devices for medical applications
Bouke BOEKEMA
Association of Dutch Burn Centres, Beverwijk,
the NETHERLANDS[P1-56-8] In vitro efficacy and safety of a new flexible volume DBD device for the treatment of diabetic foot ulcers
post-deadline update: presented as oral presentation on Tuesday, Room A, 11:50
Björn OFFERHAUS
Ruhr University, Bochum,
GERMANY[P1-57-8] Characterisation of a dielectric barrier surface discharge - space resolution and homogeneity
Frederike KOGELHEIDE
Ruhr University, Bochum,
GERMANY[P1-58-8] Tailoring a dielectric barrier discharge regarding wound healing by adjusting power density and gas composition
Ahmed ZAKI
Zagazig University, Zagazig,
EGYPT [P1-59-8] Low-cost DBD plasma hand sanitizer using air and tap water enriched by hydrogen peroxide
Chanchai CHUTSIRIMONGKOL
PhotoBioCare, Nonthaburi,
THAILAND[P1-60-8] Non thermal atmospheric DBD plasma: Medical application studies in Thailand
Sang-You KIM
Hanyang University, Seoul,
SOUTH KOREA[P1-61-8] A large area drug powder treatment and transport system with linear ICP sources and particle control devices
post-deadline update: presented by Hye Teak OH
Sang-You KIM
Hanyang University, Seoul,
SOUTH KOREA[P1-62-8] Measurement of molecular species generated in atmospheric surface dielectric barrier discharges with dielectric polyimide
post-deadline update: presented by Hye Teak OH
Yutaka FUJIWARA
University of Tsukuba, Tsukuba,
JAPAN[P1-63-8] Study on the moving striation phenomena of a low energy atmospheric pressure neon plasma flare using a high speed camera
post-deadline update: presented by Hajime SAKAKITA
Hiromasa YAMADA
University of Tsukuba, Tsukuba,
JAPAN[P1-64-8] Review of plasma characteristic measurements of a low energy atmospheric pressure plasma for blood coagulation
Olena SOLOMENKO
Taras Shevchenko National University, Kyiv,
UKRAINE[P1-65-8] Microplasma atmospheric pressure DC system with vortex gas flow
TOPIC: 9. Plasma and liquid diagnostics and sensors
Branislav PONGRÁC
Czech Academy of Sciences, Prague,
CZECHIA [P1-66-9] Time-resolved optical diagnostics of ns-pulsed underwater discharge
Amel ZERROUKI
Paul Sabatier University, Toulouse,
FRANCE [P1-67-9] OES spectroscopic measurements of temperatures and densities of charged particles in micro-air plasma for gene transfection
Arthur SALMON
Centrale Supelec, Chatenay-Malabry,
FRANCE [P1-68-9] Characterization of RONS produced by pulsed atmospheric pressure plasma sources in air and nitrogen
Poster Session 2 - Tuesday (Sep 6th)
TOPIC: 1. Medical treatment with plasmasSUBTOPIC: Skin and wounds
Vladyslava FANTOVA
Czech Academy of Sciences, Prague,
CZECHIA[P2-1-1] Inactivation of dermatophyte infection by non-thermal plasma on animal model
Victor N. VASILETS
Russian Academy of Sciences, Chernogolovka,
RUSSIA[P2-2-1] Application of air plasma generated nitric oxide for healing of cornea wounds
Sebastian von PODEWILS
University Medicine, Greifswald,
GERMANY[P2-3-1] Case report: Cold plasma effectively eradicates actinic keratosis of the scalp after one treatment course
Janik BRÜGGEMEIER
University of Greifswald, Greifswald,
GERMANY[P2-4-1] Cold atmospheric plasma for mild blood coagulation in visceral surgery
Yoshihiro AKIMOTO
Kyorin University School of Medicine, Tokyo,
JAPAN[P2-5-1] Expression of galectins and alpha smooth muscle actin in low-temperature plasma-treated healing skin
Yudai NOMURA
Kobe University, Kobe,
JAPAN[P2-6-1] Investigation of blood coagulation effect of non-thermal multi-gas plasma jet on in vitro and in vivo for endoscopic use
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Skin and wounds
Satoshi KITAZAKI
Fukuoka Institute of Technology, Fukuoka,
JAPAN[P2-7-2] Effects of non-thermal atmospheric-pressure plasma irradiation on skin in hairless mice
Masashi UEDA
Okayama University, Okayama,
JAPAN[P2-8-2] Comparison of inflammation after hemostasis with non-thermal plasma or thermal coagulation: a histological and nuclear medical evaluation
Julia van der LINDE
University of Greifswald, Greifswald,
GERMANY[P2-9-2] Repeated cold atmospheric plasma application to intact skin causes no sensitization in vivo - an OECD protocol
Monika GELKER
Hawk University of Applied Sciences and Arts, Göttingen,
GERMANY[P2-10-2] Plasma-induced modification of the dermal permeability
Enrico TRALDI
University of Bologna, Bologna,
ITALY[P2-11-2] Treatment of infected ex-vivo human skin tissue with a low power atmospheric inductively coupled plasma source optimized through design oriented simulations
Vandana MILLER
Drexel University, Camden, NJ,
USA[P2-12-2] Immunomodulatory effects of nsDBD plasma in a polarized model of human skin
Šárka KUBINOVÁ
Czech Academy of Sciences, Prague,
CZECHIA[P2-13-2] Non-thermal air plasma in skin wound healing
post-deadline update: presented as oral presentation on Tuesday, Room A, 11:35
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Transdermal drug delivery
Jaroslav KRIŠTOF
Shizuoka University, Hamamatsu,
JAPAN[P2-14-2] Study of interaction between plasma and stratum corneum for transdermal drug delivery
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Bacteria, cells and tissues
Stanislav KYZEK
Comenius University, Bratislava,
SLOVAKIA[P2-15-2] Monitoring of low temperature plasma effect in combination with hypericin on human lymphocytes
Matej KLAS
Comenius University, Bratislava,
SLOVAKIA[P2-16-2] Influence of NOx on selective apoptosis of cells
Barbora TARABOVÁ
Comenius University, Bratislava,
SLOVAKIA[P2-17-2] Effects induced on the cell membrane of Escherichia coli by the cold air plasma and the PAW
Peter POLČIC
Comenius University, Bratislava,
SLOVAKIA[P2-18-2] Effects of reactive plasma particles to yeast cells using genetic mutants
Karol HENSEL
Comenius University, Bratislava,
SLOVAKIA[P2-19-2] Air transient spark discharge vs. helium plasma jet: Their effects on water, bacteria, cells and biomolecules
Masaru HORI
Nagoya University, Nagoya,
JAPAN[P2-20-2] Comprehensive model on interactions among plasmas, liquids, intracellular molecules and animals towards a plasma medical innovation
Yoshimichi NAKATSU
Kyushu University, Fukuoka,
JAPAN[P2-21-2] Mutagenesis in human and mouse cells irradiated by non-thermal atmospheric air plasma
Keita SODA
University of Tokyo, Tokyo,
JAPAN[P2-22-2] Plasma irradiation effects on tissues in the abdominal adhesion mouse model
Akira YONESU
Ryukyu University, Nishihara,
JAPAN[P2-23-2] Influence of plasma irradiation on silkwarm
Youbin SEOL
KAIST, Daejeon,
SOUTH KOREA [P2-24-2] On the toxicity of the atmospheric pressure pulsed plasma on photosynthetic organs
Cristina MUJA
INU Champollion, Albi,
FRANCE[P2-25-2] Sublethal injury and cell membrane damage in bacterial cells generated by APPJ exposure
Jean-Michel POUVESLE
University of Orléans, Orléans,
FRANCE[P2-26-2] Cell response to He, He-O2 plasma and plasma electric field alone treatments
Marco KREWING
Ruhr University, Bochum,
GERMANY[P2-27-2] Genome-wide screening for plasma-sensitive mutants reveals genetic basis for bacterial plasma tolerance
Deborah O'CONNELL
University of York, York,
UNITED KINGDOM[P2-28-2] Low temperature plasma induces a rapid oxidative stress response in primary prostate epithelial cells
Svetlana ERMOLAEVA
Gamaleya Research Institute, Moscow,
RUSSIA[P2-29-2] Effects of cold microwave argon plasma on human fibroblasts are dependent on frequency of cell treatments
Kobra HAJIZADEH
Kharazmi University, Tehran,
IRAN[P2-30-2] Comparison of charged particles and electric field effect of cold atmospheric plasma on DNA damage
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Gene transfection
Yoshihisa IKEDA
Ehime University, Matsuyama,
JAPAN[P2-31-2] Membrane permeabilization induced by microplasma irradiation
Yoshihisa IKEDA
Ehime University, Matsuyama,
JAPAN[P2-32-2] Cytotoxicity of plasma gene transfection
Masafumi JINNO
Ehime University, Matsuyama,
JAPAN[P2-33-2] Clathrin-mediated endocytosis contribution to plasma gene transfection
TOPIC: 3. Plasma-based sterilization/decontamination
Hiroaki KAWANO
Tokyo Institute of Technology, Yokohama,
JAPAN[P2-34-3] Investigation of bactericidal factors in CO2 plasma bubbling
Masafumi ITO
Meijo University, Nagoya,
JAPAN[P2-35-3] Inactivation factors of microorganisms in solutions treated with neutral oxygen radical source
Shuma SUGAWARA
Tokyo Institute of Technology, Yokohama,
JAPAN[P2-36-3] Plasma bubbling inactivation effect on floating and adhesive bacteria
Takashi YOKOYAMA
Osaka University, Suita,
JAPAN[P2-37-3] Disinfection of infection models using human extracted tooth and porcine skin by plasma-treated water with the reduced-pH method
Meike MÜLLER
German Aerospace Center, Wessling,
GERMANY[P2-38-3] Cold atmospheric plasma technology for decontamination of space equipment
Sandra MORITZ
Justus Liebig University, Giessen,
GERMANY[P2-39-3] Inactivation of Enterococcus mundtii by indirect plasma treatment using surface micro-discharge electrode
Anna MISEROCCHI
University of Bologna, Bologna,
ITALY[P2-40-3] Cold atmospheric plasma treatment of infected skin tissue: evaluation of sterility, viability and integrity
Elena SYSOLYATINA
Gamaleya Research Institute, Moscow,
RUSSIA[P2-41-3] Bacterial eradication by synergy of argon non-thermal plasma jet and silicon nanoparticles
Vladyslava FANTOVA
Czech Academy of Sciences, Prague,
CZECHIA[P2-42-3] Effect of electrode material on bactericidal properties of water treated with DC-operated plasma jet
Zlata TUČEKOVÁ
Comenius University, Bratislava,
SLOVAKIA[P2-43-3] Inactivation of Escherichia coli using atmospheric pressure non-thermal plasma of diffuse coplanar surface barrier discharge
TOPIC: 4. Agricultural and food applications of plasmas
SUBTOPIC: Degradation of toxic compounds
Natasa HOJNIK
Jožef Stefan Institute, Ljubljana,
SLOVENIA[P2-44-4] Plasma degradation of toxic fungal metabolites
Georg AVRAMIDIS
Hawk University of Applied Sciences and Arts, Göttingen,
GERMANY[P2-45-4] Decay of fungal metabolites by atmospheric pressure plasma
Hamid GHOMI
Shahid Beheshti University, Tehran,
IRAN[P2-46-4] Elimination of diazinon insecticide from cucumber surface with low temperature plasma treatment
Hamid GHOMI
Shahid Beheshti University, Tehran,
IRAN[P2-47-4] Reduction of chemical and microbial contamination of landfill leachate using plasma discharge
TOPIC: 4. Agricultural and food applications of plasmas
SUBTOPIC: Plant growth
Sang Hye JI
Kwangwoon University, Seoul,
SOUTH KOREA[P2-48-4] Study on the activation of plant growth-promoting bacteria (PGPB) within rice plant by non-thermal atmospheric pressure plasma treatment
Vandana MILLER
Drexel University, Camden, NJ,
USA[P2-49-4] Gliding arc plasma reduces water consumption while accelerating Arabidopsis thaliana growth and fecundity
Riku NAKANO
Kyushu University, Fukuoka,
JAPAN[P2-50-4] Mechanism of growth enhancement of plants irradiated by active oxygen species in oxygen plasma
TOPIC: 8. Plasma sources for biomedical applications
Thomas MAHO
University of Orléans, Orléans,
FRANCE[P2-51-8] New plasma sterilization process for packaged medical devices: plasma diagnosis and medical pouch characterization.
Kostiantyn ACHKASOV
Sairem SAS, Neyron,
FRANCE[P2-52-8] Compact plasma sources based on microwave solid-state technology for industrial and laboratory applications in medicine
Zuzana KOVAĽOVÁ
Comenius University, Bratislava,
SLOVAKIA[P2-53-8] Bactericidal effects of argon surface discharge in long tube on planktonic bacteria
František KRČMA
Brno University of Technology, Brno,
CZECHIA[P2-54-8] New plasma sources for biomedical applications
Lars ten BOSCH
Hawk University of Applied Sciences and Arts, Göttingen,
GERMANY[P2-55-8] Cold atmospheric pressure plasma - a novel pediculosis treatment approach
Ines BÜRGER
Ruhr University, Bochum,
GERMANY[P2-56-8] Characterization of plasma used for electrosurgical cutting by means of optical emission spectroscopy and a high speed camera
Stefan HORN
INP Greifswald, Greifswald,
GERMANY[P2-57-8] On the development of an endoscopic atmospheric plasma source for pulmonary tuberculosis
Yoshihisa IKEDA
Ehime University, Matsuyama,
JAPAN[P2-58-8] High-efficient and high-survivability plasma gene transfection by minimizing plasma and optimizing electrodes configuration
TOPIC: 9. Plasma and liquid diagnostics and sensors
SUBTOPIC: PAW and RONS diagnostics
Thapanut SARINONT
Kyushu University, Fukuoka,
JAPAN[P2-59-9] A comparative study of reactive oxygen species dose provided by atmospheric plasma and gamma ray irradiation using iodine-starch reaction
Giichiro UCHIDA
Osaka University, Osaka,
JAPAN[P2-60-9] Effects of plasma-irradiation distance on ROS and RNS productions in liquid
Yukihiro KUROKAWA
Nagoya University, Nagoya,
JAPAN[P2-61-9] Generation of active species in laser-induced-plasma activated medium
Keigo TAKEDA
Nagoya University, Nagoya,
JAPAN[P2-62-9] Diagnostics of gas- and liquid-phase reactive species generated by AC excited atmospheric pressure Ar plasma
Toshiro KANEKO
Tohoku University, Sendai,
JAPAN[P2-63-9] Spatial mapping of gas and aqueous phase OH radicals and plasma-induced effect on cell membrane permeabilization
Katarína KUČEROVÁ
Comenius University, Bratislava,
SLOVAKIA[P2-64-9] The reactive species produced by transient spark discharge in gas and liquid phase and its effect on Escherichia coli
Zdenko MACHALA
Comenius University, Bratislava,
SLOVAKIA[P2-65-9] Metallic nanoparticles in air plasma activated water
Lucel SIRGHI
Alexandru Ioan Cuza University, Iaşi,
ROMANIA[P2-66-9] Surface dielectric barrier discharge in closed volume air
Florian JUDÉE
Paul Sabatier University, Toulouse,
FRANCE[P2-67-9] Detection of free radical species generated by low temperature plasma jet in culture liquid media
Thierry DUFOUR
University of Pierre and Marie Curie, Paris,
FRANCE[P2-68-9] Understanding RO(N)S diffusion and chemical reactivity at the interface, sublayer and in-depth of plasma activated media
Augusto STANCAMPIANO
University of Bologna, Bologna,
ITALY[P2-69-9] Advanced investigation on the plasma-liquid interaction in a plasma jet impinging on a water surface
Mohamed Mokhtar HEFNY
Ruhr University, Bochum,
GERMANY[P2-70-9] Treatment of liquids with plasma and its applications in medicine
Deborah O'CONNELL
University of York, York,
UNITED KINGDOM[P2-71-9] Limitations of spin trapping of the plasma induced species
Chen CHEN
Xi'an Jiaotong University, Xi'an,
CHINA[P2-72-9] Influence of plasma-forming gas on aqueous reaction chemistry activated by atmospheric plasma jet in argon containing gas
Chen CHEN
Xi'an Jiaotong University, Xi'an,
CHINA[P2-73-9] Quantitative measurement and chemical relations of aqueous reactive species induced by a helium plasma jet
Poster Session 3 - Thursday (Sep 8th)
TOPIC: 1. Medical treatment with plasmasSUBTOPIC: Dentistry
Young Min KIM
Pusan National University, Yangsan,
SOUTH KOREA[P3-1-1] Effective fluoride gel application on deciduous tooth enamel by low temperature atmospheric plasma
TOPIC: 1. Medical treatment with plasmas
SUBTOPIC: Cancer in vivo
Abraham LIN
Drexel University, Camden, NJ,
USA[P3-2-1] Non-thermal plasma induction of immunogenic cell death in an in vivo tumor mouse model
Shahriar MIRPOUR
Shahid Beheshti University, Tehran,
IRAN[P3-3-1] Atmospheric plasma induces 'bystander effect' in the treatment of the breast cancer tumor in in-vivo
post-deadline update: presented as oral presentation by Hamid GHOMI on Wednesday, Room A, 10:15
Shahriar MIRPOUR
Shahid Beheshti University, Tehran,
IRAN[P3-4-1] Effect of the micron size non-thermal atmospheric pressure plasma jet on the breast tumor treatment
TOPIC: 1. Medical treatment with plasmas
SUBTOPIC: PAM and cancer
Joseph-Marie PLEWA
Paul Sabatier University, Toulouse,
FRANCE[P3-5-1] Effects of low temperature plasma activated liquid media on multi-cellular tumor spheroids
post-deadline update: presented by Julie CHAUVIN
Akiyo TANAKA
Kyushu University, Fukuoka,
JAPAN[P3-6-1] Health effects of repeated intraperitoneal injections of plasma-activated medium in mice
Hiroaki KAJIYAMA
Nagoya University Graduate School of Medicine, Nagoya,
JAPAN[P3-7-1] Plasma-irradiated liquid therapy suppresses intraperitoneal metastasis of chemoresistant ovarian cancer
Junichiro IKEDA
Osaka University, Suita,
JAPAN[P3-8-1] Effect of plasma-activated medium (PAM) on cancer-initiating cells for cancer therapy
Hayao NAKANISHI
Aichi Cancer Center, Okazaki,
JAPAN[P3-9-1] Efficacy of intraperitoneal therapy with plasma-activated medium targeting peritoneal micrometastasis as revealed by human gastric cancer cell lines in nude mice
Kae NAKAMURA
Nagoya University Graduate School of Medicine, Nagoya,
JAPAN[P3-10-1] Plasma-activated medium (PAM) inhibits peritoneal metastasis in ovarian cancer mouse model
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Cancer cells and tissues
Machiko IIDA
Nagoya University Graduate School of Medicine, Nagoya,
JAPAN[P3-11-2] Effect of non-equilibrium atmospheric pressure plasmas irradiation on spontaneously developed melanoma in RET-mice
Reoto ONO
Kyushu University, Fukuoka,
JAPAN[P3-12-2] Inactivation effect of DBD on oral cancer cells inside culture medium film
Masaharu SHIRATANI
Kyushu University, Fukuoka,
JAPAN[P3-13-2] Time development of response of cells irradiated by non-thermal atmospheric air plasma
Sun Ja KIM
Dong-A University, Pusan,
SOUTH KOREA[P3-14-2] Selective effects of cold atmospheric pressure plasma on normal and tumor cells
Xiaoqian CHENG
George Washington University, Washington, DC,
USA[P3-15-2] Enhancing cold atmospheric plasma treatment of cancer cells by static magnetic field
post-deadline update: presented by Michael KEIDAR
Eda GJIKA
George Washington University, Washington, DC,
USA[P3-16-2] Plasma-tissue and plasma-cell interactions: the effects of power and treatment duration in cancer therapy
post-deadline update: presented by Michael KEIDAR
Anthony CORDERO-RAMIREZ
Hospital Mexico, San Jose,
COSTA RICA[P3-17-2] In vitro evaluation of survival curves for tissues exposed to atmospheric pressure plasmas combined with ionizing radiation
Steven VANUYTSEL
University of Antwerp, Antwerp,
BELGIUM[P3-18-2] Cold atmospheric-pressure plasma treatment of glioblastoma cells: Influence of working gas and involvement of mitochondria in apoptosis
Emilio MARTINES
Consorzio RFX, Padova,
ITALY[P3-19-2] Effect of indirect plasma treatment on laryngeal cancer cells
Eleonora TURRINI
University of Bologna, Rimini,
ITALY[P3-20-2] Atmospheric non-equilibrium plasma induces apoptosis and oxidative stress pathway regulation in T-lymphoblastoid leukemia cells
TOPIC: 2. Plasma-cell and plasma-tissue interactions, biological reactions
SUBTOPIC: Immune cells
Ku YOUN BAIK
Kwangwoon University, Seoul,
SOUTH KOREA[P3-21-2] The response of myeloid cells to non-thermal plasma
Muna BARAKAT
Queen's University, Belfast,
UNITED KINGDOM[P3-22-2] Effect of atmospheric pressure non-thermal plasma exposure on Pseudomonas aeruginosa-induced cytotoxicity in murine macrophages
Anna LIGUORI
University of Bologna, Bologna,
ITALY[P3-23-2] Cold atmospheric plasma treatment affects membrane markers expression in human monocytes and macrophages
TOPIC: 3. Plasma-based sterilization/decontamination
SUBTOPIC: Biofilms
Emanuele SIMONCELLI
University of Bologna, Bologna,
ITALY[P3-24-3] Qualitative live/dead confocal laser analysis on the decontamination efficacy of CAP treatment on ex-vivo tooth root canals
Martina MODIC
Jožef Stefan Institute, Ljubljana,
SLOVENIA[P3-25-3] Cold atmospheric pressure plasma inactivation of clinically important single and multi-species biofilms
Martina MODIC
Jožef Stefan Institute, Ljubljana,
SLOVENIA[P3-26-3] A comparison of direct and in-direct atmospheric pressure air plasma treatments for the decontamination of Staphylococcus epidermidis biofilm contamination grown on titanium substrates
Fatma IBIS
İzmir Kâtip Çelebi University, İzmir,
TURKEY[P3-27-3] Comparative assessment of antimicrobial efficacy of non-thermal plasma and Er:YAG laser on titanium discs for nonsurgical treatment of peri-implantitis
post-deadline update: presented by Utku Kürşat ERCAN
Aliaksandra KAZAK
B.I.Stepanov Institute of Physics, Minsk,
BELARUS[P3-28-3] Inactivation of consortiums of microorganisms by an air plasma jet at atmospheric pressure
Juliana DELBEN
Uninga, Maringa,
BRAZIL[P3-29-3] Tissue tolerable cold plasma against oral biofilms
Anelise DORIA
Universidade do Vale do Paraiba, Sao Jose dos Campos,
BRAZIL[P3-30-3] Action of argon/water vapor plasma jet on Candida albicans biofilm growth on silicone substrate
Anelise DORIA
Universidade do Vale do Paraiba, Sao Jose dos Campos,
BRAZIL[P3-31-3] Inactivation of biofilms of Candida albicans by atmospheric plasma jet operated in continuous and pulsed mode
TOPIC: 3. Plasma-based sterilization/decontamination
SUBTOPIC: Spores
Katharina STAPELMANN
Ruhr University, Bochum,
GERMANY[P3-32-3] Low pressure plasma inactivation of Bacillus subtilis spores: insights into the mechanisms of spore resistance
Anna KUZMINOVA
Czech Academy of Sciences, Prague,
CZECHIA[P3-33-3] Atmospheric pressure plasma treatment for inactivation of bacterial spores
Padrig FLYNN
Queen's University, Belfast,
UNITED KINGDOM[P3-34-3] Decontamination of Clostridium difficile spores using atmospheric pressure non-thermal plasma
Akira YONESU
Ryukyu University, Nishihara,
JAPAN[P3-35-3] Sterilization using LF-microwave hybrid plasma at atmospheric pressure
TOPIC: 4. Agricultural and food applications of plasmas
SUBTOPIC: Decontamination
Anelise DORIA
Universidade do Vale do Paraiba, Sao Jose dos Campos,
BRAZIL[P3-36-4] Antifungal action of atmospheric plasma on strains of Penicillium spp isolated from onion seeds
Katerina VLKOVÁ
Czech Technical University, Prague,
CZECHIA[P3-37-4] Synergistic effects of essential oregano oil and positive streamer on bacteria and yeasts
Lucia HOPPANOVÁ
Slovak University of Technology, Bratislava,
SLOVAKIA[P3-38-4] Low temperature plasma as an alternative means of reducing the amount of used xenobiotics
Andrea ŽILKOVÁ
Comenius University, Bratislava,
SLOVAKIA[P3-39-4] Cold air plasma pasteurization of a fresh apple juice
Eunjeong HONG
National Fusion Research Institute, Gunsan,
SOUTH KOREA[P3-40-4] The effect of plasma treated water (PTW) for reducing pathogenic microorganism on fruits
Juslan LO
INU Champollion, Albi,
FRANCE[P3-41-4] Microwave coaxial plasma source for spices decontamination
Zifan WAN
Iowa State University, Ames, IA,
USA[P3-42-4] High voltage atmospheric cold plasma treatment of yeast for spoilage prevention
Zifan WAN
Iowa State University, Ames, IA,
USA[P3-43-4] High voltage atmospheric cold plasma treatment of queso fresco cheese for inactivation of Listeria innocua
Zifan WAN
Iowa State University, Ames, IA,
USA[P3-44-4] High voltage atmospheric cold plasma treatment of refrigerated chicken eggs for control of Salmonella enteritidis contamination on the egg shell
Mansour KHORAM
Islamic Azad University, Borujerd,
IRAN[P3-45-1] Decontamination of herbal distillates using spark discharge
TOPIC: 5. Pharmaceutical applications and biochemical/biomolecular engineering with plasmas
Yoshihito YAGYU
Sasebo College, Sasebo,
JAPAN[P3-46-5] Gene expression analysis of Saccharomyces cerevisiae exposed to FE-DBD plasma
Naoyuki KURAKE
Nagoya University, Nagoya,
JAPAN[P3-47-5] Particulates generation in the plasma activated medium (PAM)
Yoshihisa IKEDA
Ehime University, Matsuyama,
JAPAN[P3-48-5] Evaluation of importance of H2O2 in gene transfection
Toshiro KANEKO
Tohoku University, Sendai,
JAPAN[P3-49-5] Effects of multi-stimuli on cell membrane permeability in micro solution plasma
TOPIC: 8. Plasma sources for biomedical applications
Yuichi SETSUHARA
Osaka University, Osaka,
JAPAN[P3-50-8] Effects of surrounding gas flow on ROS and RNS productions in non-thermal plasma-jet system
Zhen LIU
Zhejiang University, Hangzhou,
CHINA[P3-51-8] A pulsed cold plasma jet and its medical application
Magali XAUBET
Institute of Plasma Physics, Buenos Aires,
ARGENTINA[P3-52-8] Optimization process of an atmospheric pressure plasma jet for medical applications
Biswajit BORA
Chileann Nuclear Energy Commission, Santiago,
CHILE[P3-53-8] Electrical and optical characterization of plasma needle to be used for biomedical applications
Mohamed Tahar BENABBAS
Freres Mentouri University, Constantine,
ALGERIA[P3-54-8] Low frequency atmospheric pressure plasma jets for bacteria inactivation on solid surfaces and in aqueous solutions
Adam POLAKOVIČ
Comenius University, Bratislava,
SLOVAKIA[P3-55-8] Cold air plasma source for biomedical applications based on DC corona discharge
Vitalii ZABLOTSKII
Czech Academy of Sciences, Prague,
CZECHIA[P3-56-8] Micro-plasma device for biomedical applications
Jan-Simon BAUDLER
INP Greifswald, Greifswald,
GERMANY[P3-57-8] Progress towards a target-oriented development and benchmarking process for comparable results in biomedical applications
Vittorio COLOMBO
University of Bologna, Bologna,
ITALY[P3-58-8] A novel cold atmospheric plasma device for dental applications
Eric ROBERT
University of Orléans, Orléans,
FRANCE[P3-59-8] Rare gas flow channeling in kHz plasma jet operation
Nofel MERBAHI
Paul Sabatier University, Toulouse,
FRANCE[P3-60-8] Optimization of ring-rod argon plasma jets at atmospheric pressure for biomedical applications
Aboubakar KONE
INU Champollion, Albi,
FRANCE[P3-61-8] Investigation of the interaction between a helium plasma jet and conductive / non-conductive targets
TOPIC: 10. Modeling and numerical simulations
Amel ZERROUKI
Paul Sabatier University, Toulouse,
FRANCE[P3-62-10] Stochastic simulations with experimental validation of plasma-induced poration of cell membranes for gene transfection
Pedro VIEGAS
École Polytechnique, Palaiseau,
FRANCE[P3-63-10] Numerical and experimental study on the dynamics of a micro-second helium plasma gun with various amounts of O2 or N2 admixtures
Jonas van der PAAL
University of Antwerp, Antwerp,
BELGIUM[P3-64-10] Effect of cholesterol and lipid peroxidation on the permeability of ROS through a phospholipid bilayer
Christof VERLACKT
University of Antwerp, Antwerp,
BELGIUM[P3-65-10] Insight in the plasma induced oxidation of peptides at the molecular scale
Jamoliddin RAZZOKOV
University of Antwerp, Antwerp,
BELGIUM[P3-66-10] Modeling phosphatidylserine flip-flop in the plasma membrane of cells: a better insight in apoptosis
Satoshi UCHIDA
Tokyo Metropolitan University, Tokyo,
JAPAN[P3-67-10] Numerical analysis of permeation properties of oxygen active species in cell membrane by classical molecular dynamics
Kazumasa IKUSE
Osaka University, Suita,
JAPAN[P3-68-10] Numerical simulations of plasma-induced metabolic responses of Escherichia coli
Hajime SAKAKITA
AIST, Tsukuba,
JAPAN[P3-69-10] Power distributions of each impedance in the electrical circuit of ionized gas coagulation equipment
Dogan GIDON
University of California, Berkeley, CA,
USA[P3-70-10] Lumped-parameter modeling of atmospheric pressure plasma jets for real-time control applications
Constantinos LAZAROU
University of Cyprus, Nicosia,
CYPRUS[P3-71-10] Numerical investigation of the electric field produced by the interaction of helium plasma jet with normal and cancer cells
Toshifumi YUJI
Miyazaki University, Miyazaki,
JAPAN[P3-72-10] Atmospheric-pressure non-equilibrium DC pulse discharge plasma jet for plasma sterilization treatment techniques in dry powder foods
