nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
Adaptation Of Operational Parameters Of Cold Atmospheric Plasma And Their Role In Cancer Therapy
|
Gjika, Eda |
|
2018 |
19-20 |
S |
p. 16-17 |
artikel |
2 |
Advanced Control Of Plasma Medical Devices
|
Graves, David |
|
2018 |
19-20 |
S |
p. 2 |
artikel |
3 |
Air Dielectric Barrier Discharge Plasma Source For In Vitro Cancer Studies
|
Gerber, Ioana Cristina |
|
2018 |
19-20 |
S |
p. 4 |
artikel |
4 |
AlmaIDEA Project: Chemo-Physical And Biological Mechanisms Behind The Antitumor Activity Of Plasma Activated Liquids For The Treatment Of Peritoneal Carcinosis From Primitive Epithelial Ovarian/Tubular Tumor
|
Laurita, R. |
|
2018 |
19-20 |
S |
p. 39-40 |
artikel |
5 |
Atmospheric Pressure Multijet Plasma Sources For Cancer Treatments
|
Maho, Thomas |
|
2018 |
19-20 |
S |
p. 3-4 |
artikel |
6 |
Biologically Active NOx Production By Nano-Second Pin-Plate Discharge In Air
|
Pei, Xuekai |
|
2018 |
19-20 |
S |
p. 41 |
artikel |
7 |
Can We Achieve Selectivity In Plasma Medicine?
|
Wende, Kristian |
|
2018 |
19-20 |
S |
p. 43 |
artikel |
8 |
Cold Atmospheric Plasma for the treatment of Oral Lichen Planus as intraoral precancerous lesion
|
Seebauer, Christian |
|
2018 |
19-20 |
S |
p. 44-45 |
artikel |
9 |
Cold Atmospheric Plasma Selectively Induces Apoptosis In Renal Adenocarcinoma
|
Rowe III, Warren J |
|
2018 |
19-20 |
S |
p. 29-30 |
artikel |
10 |
Cold Atmospheric Plasma Suppresses Ovarian Cancer Cell Activity With Concurrent Secretion Of Heat Shock Protein 27 Affecting Monocyte Fate
|
Stope, Matthias B. |
|
2018 |
19-20 |
S |
p. 25-26 |
artikel |
11 |
Cold Physical Plasma Does Not Promote Metastasis-Like Spread In Human Pancreatic Cancer Cell Lines
|
Spadola, Chiara |
|
2018 |
19-20 |
S |
p. 25 |
artikel |
12 |
Cold plasma treatment of in vitro gliomas and patient-derived tumors – Role of human myeloid cells
|
Marx, Sascha |
|
2018 |
19-20 |
S |
p. 6-7 |
artikel |
13 |
Combining cold physical plasma with pulsed electrical fields for cancer treatment
|
Wolff, Christina Maria |
|
2018 |
19-20 |
S |
p. 26-27 |
artikel |
14 |
Comparison of AC plasma jets between dielectric barrier discharge and surface barrier discharge
|
Park, Insun |
|
2018 |
19-20 |
S |
p. 7 |
artikel |
15 |
Computational And Experimental Study Of The Impact Of Plasma On The Human Epidermal Growth Factor And Its Implications For Wound Healing And Cancer Treatment
|
Stapelmann, Katharina |
|
2018 |
19-20 |
S |
p. 12 |
artikel |
16 |
Consequences Of Environmental Factors In Plasma Treatment Of Liquids, Tissues And Materials
|
Kruszelnicki, Juliusz |
|
2018 |
19-20 |
S |
p. 2 |
artikel |
17 |
Contribution Of Intracellular Mobile Zinc To Anti-Cancer Effects Of Plasma-Activated Medium
|
Hara, Hirokazu |
|
2018 |
19-20 |
S |
p. 14-15 |
artikel |
18 |
Controlling of apoptosis and proliferation of HepG2 cancer cells by treatment of plasma jet and N-acetylcysteine combination
|
Xiong, Zilan |
|
2018 |
19-20 |
S |
p. 12-13 |
artikel |
19 |
Detection And Regulation Of Radical Production In Plasma Treated Liquids
|
Jablonowski, Helena |
|
2018 |
19-20 |
S |
p. 38 |
artikel |
20 |
Differential Cell Death In Hepatocellular Cell Lines Induced By Non-Thermal Plasma
|
Smolková, Barbora |
|
2018 |
19-20 |
S |
p. 11 |
artikel |
21 |
Effect Of Low-Temperature Plasma On Metastatic Processes Of Solid Tumors In Vitro
|
Privat-Maldonado, Angela |
|
2018 |
19-20 |
S |
p. 22-23 |
artikel |
22 |
Effect Of Plasma Pen Treatment And Plasma Activated Medium (PAM) On Cancer And Normal Cells
|
Sersenová, Dominika |
|
2018 |
19-20 |
S |
p. 24 |
artikel |
23 |
Effects of Non-thermal Plasma Activated Water on the Anti-cancer Immune Activities of Macrophages
|
Lee, Chae Bok |
|
2018 |
19-20 |
S |
p. 31 |
artikel |
24 |
Effects of Plasma Activated media on Epithelial Cells
|
Laroussi, Mounir |
|
2018 |
19-20 |
S |
p. 39 |
artikel |
25 |
Evaluation of RAC1 Gene Expression Under Exposure Of Plasma Activated Verbascoside in HT-29 Colorectal Cancer Cells
|
Hajizadeh, Kobra |
|
2018 |
19-20 |
S |
p. 36-37 |
artikel |
26 |
Flexible Electronics Technologies for the Fabrication of Surface Dielectric Barrier Discharge Devices
|
Kim, Do-Geun |
|
2018 |
19-20 |
S |
p. 5-6 |
artikel |
27 |
Gaining Insight In The Selectivity And Plasma-Liquid Chemistry For Plasma Treatment Of Cancer
|
Van Boxem, Wilma |
|
2018 |
19-20 |
S |
p. 30 |
artikel |
28 |
Generation Of Reactive Species By Plasma Needle In Different Liquids
|
Hamouda, Inés |
|
2018 |
19-20 |
S |
p. 34-35 |
artikel |
29 |
Gwu-Usmi Plasma Medicine Research Program
|
Canady, Jerome |
|
2018 |
19-20 |
S |
p. 3 |
artikel |
30 |
IBC
|
|
|
2018 |
19-20 |
S |
p. IBC |
artikel |
31 |
IFC
|
|
|
2018 |
19-20 |
S |
p. IFC |
artikel |
32 |
Immune modulatory properties of radiotherapy
|
Gaipl, Udo S. |
|
2018 |
19-20 |
S |
p. 13 |
artikel |
33 |
Immunogenic Cell Death In Murine Colon-Carcinoma Cells Following Exposure To Cold Physical Plasma-Treated Saline Solution
|
Freund, Eric |
|
2018 |
19-20 |
S |
p. 19 |
artikel |
34 |
Immunogenic Potential Of Cold Atmospheric Plasma For The Treatment Of Pancreatic Cancer
|
Van Loenhout, Jinthe |
|
2018 |
19-20 |
S |
p. 26 |
artikel |
35 |
Immuno-modulatory effect of bio-plasma against cancer and other dreadful disease
|
Kaushik, Nagendra Kumar |
|
2018 |
19-20 |
S |
p. 15 |
artikel |
36 |
Impact Of Biological Liquid Composition On The Effectiveness Of Cold Atmospheric Pressure Plasmas
|
Heusler, Thea |
|
2018 |
19-20 |
S |
p. 37 |
artikel |
37 |
Influence of Cold Atmospheric Plasma on Cytokine Expression in Human Osteosarcoma Cells
|
Gümbel, Denis |
|
2018 |
19-20 |
S |
p. 20 |
artikel |
38 |
Interaction Between Cap- Derived Singlet Oxygen And Tumor Cell Protective Catalase: Update And Chances
|
Bauer, Georg |
|
2018 |
19-20 |
S |
p. 17-18 |
artikel |
39 |
Intracellular Rons Increase Induced By Helium Plasma Triggers Apoptosis In Cancer Cells
|
Martines, Emilio |
|
2018 |
19-20 |
S |
p. 28-29 |
artikel |
40 |
Intraperitoneal Treatment With Plasma-Activated Liquid Inhibits Peritoneal Metastasis In Ovarian Cancer Mouse Model
|
Nakamura, Kae |
|
2018 |
19-20 |
S |
p. 47-48 |
artikel |
41 |
Introducing Asia-Pacific Plasma Oncology Network: Progress On Triple Negative Breast Cancer
|
Dai, Xiaofeng |
|
2018 |
19-20 |
S |
p. 27 |
artikel |
42 |
Investigating Electron And Radical Interactions With Biomolecules And Cells Using A Droplet In Plasma Laboratory
|
Maguire, Paul |
|
2018 |
19-20 |
S |
p. 31-32 |
artikel |
43 |
Investigations Of A Helium Plasma Jet In Interaction With Biological Liquids
|
Ciubotaru, Delia |
|
2018 |
19-20 |
S |
p. 35 |
artikel |
44 |
Laser-Assisted Delivery Of Cold Atmospheric Plasma In Unresectable Cutaneous Metastasis In Melanoma Patients
|
Jansen, Philipp |
|
2018 |
19-20 |
S |
p. 46 |
artikel |
45 |
Mass Spectrometry Based Analysis Of The Oxidation Compounds Produced By Cold Atmospheric Plasma (CAP) Interaction With Cysteine
|
Bruno, Giuliana |
|
2018 |
19-20 |
S |
p. 33-34 |
artikel |
46 |
Microarry Analysis Identifies Activation Of Multiple Signalling Pathways In Primary Prostate Epithelial Cells By Low Temperature Plasma
|
Packer, John |
|
2018 |
19-20 |
S |
p. 20-21 |
artikel |
47 |
Mitochondrial Complex IV Inhibition and Exogenous Oxidants Potently Synergize in Melanoma Cell Death Induction
|
Gandhirajan, Rajesh |
|
2018 |
19-20 |
S |
p. 19-20 |
artikel |
48 |
Modulating Plasma-Induced Thiol Chemistry In Liquids
|
Lackmann, Jan-Wilm |
|
2018 |
19-20 |
S |
p. 38-39 |
artikel |
49 |
Nanosecond-Pulsed DBD Plasma For A Clinical Trial Of Actinic Keratosis
|
Miller, Vandana |
|
2018 |
19-20 |
S |
p. 44 |
artikel |
50 |
Non-Thermal Plasma As An Innovative Anticancer Strategy On Leukemia Models
|
Turrini, Eleonora |
|
2018 |
19-20 |
S |
p. 15-16 |
artikel |
51 |
Non-Thermal Plasma Induced Immunogenic Cell Death In Pancreatic Cancer
|
Khalili, Marian |
|
2018 |
19-20 |
S |
p. 17 |
artikel |
52 |
OBC
|
|
|
2018 |
19-20 |
S |
p. OBC |
artikel |
53 |
OFC
|
|
|
2018 |
19-20 |
S |
p. OFC |
artikel |
54 |
On The Penetration Depth Of Reactive Oxygen And Nitrogen Species Generated By A Plasma Jet Through Real Biological Tissue
|
Nie, L. |
|
2018 |
19-20 |
S |
p. 32 |
artikel |
55 |
Plasma-Activated Medium Inhibites Metastatic Activities Of Ovarian Cancer Cells In Vitro Via Repressing Mapk Pathway
|
Peng, Yang |
|
2018 |
19-20 |
S |
p. 41-42 |
artikel |
56 |
Plasma as adjuvant in melanoma treatment via mitochondrial targeting
|
Pasqual-Melo, Gabriella |
|
2018 |
19-20 |
S |
p. 21-22 |
artikel |
57 |
Plasma, Cancer, Immunity
|
Bekeschus, Sander |
|
2018 |
19-20 |
S |
p. 13-14 |
artikel |
58 |
Plasma Cancer Therapy In Dermatology
|
Daeschlein, Georg |
|
2018 |
19-20 |
S |
p. 18-19 |
artikel |
59 |
Plasma-Derived Oxidants And The Modulation Of Immunsuppression In Melanoma
|
Moritz, Juliane |
|
2018 |
19-20 |
S |
p. 11-12 |
artikel |
60 |
Plasma Elicits Immunogenic Death In Melanoma Cells
|
Lin, Abraham |
|
2018 |
19-20 |
S |
p. 9 |
artikel |
61 |
Plasma Medical Oncology: Long-Term Results With Focus On Immunity Research
|
Witzke, Katharina |
|
2018 |
19-20 |
S |
p. 48 |
artikel |
62 |
Plasmas, membranes, and transport across the membranes
|
Mir, Lluis M. |
|
2018 |
19-20 |
S |
p. 7-8 |
artikel |
63 |
Post-Graduate Education And Training Program For Participating In Trials And Treatment In Clinical Plasma Medicine
|
Rana, Ajay |
|
2018 |
19-20 |
S |
p. 47 |
artikel |
64 |
Puublication Information
|
|
|
2018 |
19-20 |
S |
p. ii |
artikel |
65 |
Radiobiological Response Of Breast Cancer Cells, Exposed To Atmospheric Pressure Plasmas And Ionizing Radiation, An In-Vitro Essay. (Project Overview)
|
Cordero, A.G. |
|
2018 |
19-20 |
S |
p. 10-11 |
artikel |
66 |
Reactive Species Production In Argon And Helium Plasma Jets: Reactivity Transfer From Plasma To Liquid Layers
|
Babaeva, Natalia |
|
2018 |
19-20 |
S |
p. 32-33 |
artikel |
67 |
Reduction Of Metastasis With Plasma-Treated Liquid In Mice: The Role Of Myleoid Cells In The Tumor Microenvironment
|
Liedtke, Kim Rouven |
|
2018 |
19-20 |
S |
p. 45-46 |
artikel |
68 |
Regulation Of Antigen-Presenting Machinery In Melanoma After Plasma Treatment
|
Clemen, Ramona |
|
2018 |
19-20 |
S |
p. 9-10 |
artikel |
69 |
Sensitivity Of Murine Melanoma Cells B16 To Plasma Needle Treatment
|
Guerrero, Jorge Humberto Serment |
|
2018 |
19-20 |
S |
p. 23-24 |
artikel |
70 |
Similarities And Differences In The Cellular Resposnses Between Plasma-Activated Medium-Treated Glioblastomas And Plasma-Activated Ringer’s Lactate Solution-Treated Glioblastomas
|
Tanaka, Hiromasa |
|
2018 |
19-20 |
S |
p. 42-43 |
artikel |
71 |
Surface Dielectric Barrier Discharge Devices for Low Voltage and Low Power Radical Sheet
|
Lee, Seunghun |
|
2018 |
19-20 |
S |
p. 5 |
artikel |
72 |
Technical advance: High Content Imaging of 2D and 3D tumor spheroids co-cultured with THP-1 monocytes following Plasma Treatment
|
Sagwal, Sanjeev |
|
2018 |
19-20 |
S |
p. 23 |
artikel |
73 |
The Effect of Plasma Activated Verbascoside on HIF-1A Expression as Valuable Metastasis and Angiogenesis factor in HT-29 Colon Cancer Cells
|
Hajizadeh, Kobra |
|
2018 |
19-20 |
S |
p. 36 |
artikel |
74 |
Therapeutic Efficacy Of Plasma Activated Medium In 2d And 3d In Vitro Head And Neck Fadu Cancer Cell
|
Merbahi, Nofel |
|
2018 |
19-20 |
S |
p. 40-41 |
artikel |
75 |
The Role Of Cytoglobin In The Plasma-Treatment Of Melanoma
|
De Backer, Joey |
|
2018 |
19-20 |
S |
p. 14 |
artikel |
76 |
The sensitivity of melanoma towards plasma-treated liquids is determined by its intracellular ROS level
|
De Backer, Joey |
|
2018 |
19-20 |
S |
p. 28 |
artikel |
77 |
5th International Workshop on Plasma for Cancer Treatment (IWPCT 2018) Greifswald, Germany, 20-21 March 2018
|
|
|
2018 |
19-20 |
S |
p. 1 |
artikel |
78 |
Title Page
|
|
|
2018 |
19-20 |
S |
p. i |
artikel |
79 |
Treatment Of Hypoxic Tumours With Plasma Jets
|
Szili, Endre |
|
2018 |
19-20 |
S |
p. 8-9 |
artikel |
80 |
Where Do Ros Go? Oxidation Cascades In Melanoma Exposed To Cold Physical Plasma
|
Rödder, Katrin |
|
2018 |
19-20 |
S |
p. 29 |
artikel |