scholarly article | Q13442814 |
P819 | ADS bibcode | 2016PLoSO..1159434D |
P356 | DOI | 10.1371/JOURNAL.PONE.0159434 |
P932 | PMC publication ID | 4959715 |
P698 | PubMed publication ID | 27454174 |
P50 | author | Damijan Miklavčič | Q12787232 |
P2093 | author name string | Olga N Pakhomova | |
Andrei G Pakhomov | |||
Janja Dermol | |||
P2860 | cites work | Tumor ablation with irreversible electroporation | Q21144414 |
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Disruption of the actin cortex contributes to susceptibility of mammalian cells to nanosecond pulsed electric fields. | Q51749737 | ||
Interaction of the sugars trehalose, maltose and glucose with a phospholipid bilayer: a comparative molecular dynamics study. | Q52572588 | ||
The endothelial cytoskeleton as a target of electroporation-based therapies. | Q52575672 | ||
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Standard operating procedures of the electrochemotherapy: Instructions for the use of bleomycin or cisplatin administered either systemically or locally and electric pulses delivered by the CliniporatorTM by means of invasive or non-invasive electrod | Q56041032 | ||
Comparison of the effects of the repetition rate between microsecond and nanosecond pulses: Electropermeabilization-induced electro-desensitization? | Q61758783 | ||
Modulation of electrically induced permeabilization and fusion of Chinese hamster ovary cells by osmotic pressure | Q68858177 | ||
Generation of reactive-oxygen species induced by electropermeabilization of Chinese hamster ovary cells and their consequence on cell viability | Q72066970 | ||
Non invasive contact electrodes for in vivo localized cutaneous electropulsation and associated drug and nucleic acid delivery | Q82974115 | ||
Efficacy and safety of electrochemotherapy combined with peritumoral IL-12 gene electrotransfer of canine mast cell tumours | Q87218365 | ||
Disassembly of actin structures by nanosecond pulsed electric field is a downstream effect of cell swelling | Q33927421 | ||
A quantitative study of electroporation showing a plateau in net molecular transport | Q34019439 | ||
Analysis of plasma membrane integrity by fluorescent detection of Tl(+) uptake | Q34070591 | ||
The mechanism of facilitated cell membrane resealing. | Q34492093 | ||
Manipulation of cell volume and membrane pore comparison following single cell permeabilization with 60- and 600-ns electric pulses | Q34574588 | ||
Phase I trial of interleukin-12 plasmid electroporation in patients with metastatic melanoma | Q34887442 | ||
Gadolinium modifies the cell membrane to inhibit permeabilization by nanosecond electric pulses | Q35205446 | ||
Skin electroporation for transdermal and topical delivery | Q35690695 | ||
Calcium Electroporation: Evidence for Differential Effects in Normal and Malignant Cell Lines, Evaluated in a 3D Spheroid Model | Q35860243 | ||
Careful treatment planning enables safe ablation of liver tumors adjacent to major blood vessels by percutaneous irreversible electroporation (IRE) | Q36079244 | ||
Repair of injured plasma membrane by rapid Ca2+-dependent endocytosis | Q36491740 | ||
Impact of external medium conductivity on cell membrane electropermeabilization by microsecond and nanosecond electric pulses | Q36524788 | ||
Electrosensitization assists cell ablation by nanosecond pulsed electric field in 3D cultures | Q36699965 | ||
Effect of medium conductivity and composition on the uptake of propidium iodide into electropermeabilized myeloma cells | Q36832004 | ||
Facilitation of electroporative drug uptake and cell killing by electrosensitization | Q36881916 | ||
Defective lysosomal exocytosis and plasma membrane repair in Chediak-Higashi/beige cells. | Q37695560 | ||
Electroporation gene therapy preclinical and clinical trials for melanoma | Q37765906 | ||
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Electroporation in food processing and biorefinery | Q38257134 | ||
A review of basic to clinical studies of irreversible electroporation therapy | Q38267361 | ||
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Gene Electrotransfer: A Mechanistic Perspective | Q38794038 | ||
Modeling a Conventional Electroporation Pulse Train: Decreased Pore Number, Cumulative Calcium Transport and an Example of Electrosensitization | Q38841280 | ||
Pulse timing during irreversible electroporation achieves enhanced destruction in a hindlimb model of cancer. | Q38951902 | ||
Membrane-targeting approaches for enhanced cancer cell destruction with irreversible electroporation | Q39109750 | ||
Calcium electroporation in three cell lines: a comparison of bleomycin and calcium, calcium compounds, and pulsing conditions | Q39294062 | ||
Tumor size and effectiveness of electrochemotherapy | Q39459398 | ||
Electropermeabilization of mammalian cells. Quantitative analysis of the phenomenon | Q39634780 | ||
Mathematical Models Describing Chinese Hamster Ovary Cell Death Due to Electroporation In Vitro | Q40680701 | ||
Intracellular delivery of trehalose into mammalian cells by electropermeabilization | Q40707643 | ||
Electrochemotherapy in locally advanced pancreatic cancer: Preliminary results | Q41008276 | ||
Transport, resealing, and re-poration dynamics of two-pulse electroporation-mediated molecular delivery | Q41016026 | ||
Experimental evidence for the involvement of the cytoskeleton in mammalian cell electropermeabilization | Q41095328 | ||
Numerical study of the electroporation pulse shape effect on molecular uptake of biological cells. | Q42084258 | ||
Dual therapeutic benefit of electroporation-mediated DNA vaccination in vivo: Enhanced gene transfer and adjuvant activity | Q42204595 | ||
Kinetics of transmembrane transport of small molecules into electropermeabilized cells | Q42423765 | ||
Formation and resealing of pores of controlled sizes in human erythrocyte membrane | Q43881860 | ||
Mg2+-free buffer elevates transformation efficiency of Vibrio parahaemolyticus by electroporation | Q46126315 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | electroporation | Q1142521 |
P304 | page(s) | e0159434 | |
P577 | publication date | 2016-07-25 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Cell Electrosensitization Exists Only in Certain Electroporation Buffers | |
P478 | volume | 11 |
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Q58718476 | Characterization of Cell Membrane Permeability In Vitro Part II: Computational Model of Electroporation-Mediated Membrane Transport |
Q89997200 | Chemical Enhancement of Irreversible Electroporation: A Review and Future Suggestions |
Q48213519 | Control by Low Levels of Calcium of Mammalian Cell Membrane Electropermeabilization |
Q41476582 | Delayed hypersensitivity to nanosecond pulsed electric field in electroporated cells |
Q50056184 | Electropermeabilization of cells by closely spaced paired nanosecond-range pulses. |
Q49239601 | Electrosensitization Increases Antitumor Effectiveness of Nanosecond Pulsed Electric Fields In Vivo |
Q91868305 | Genetic Transformation of the Filamentous Fungus Pseudogymnoascus verrucosus of Antarctic Origin |
Q48194176 | Membrane Permeabilization of Pathogenic Yeast in Alternating Sub-microsecond Electromagnetic Fields in Combination with Conventional Electroporation |
Q47596281 | Physical and Chemical Enhancement of and Adaptive Resistance to Irreversible Electroporation of Pancreatic Cancer |
Q96136345 | Short microsecond pulses achieve homogeneous electroporation of elongated biological cells irrespective of their orientation in electric field |
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