Electrochemotherapy: from the drawing board into medical practice
about
Irreversible electroporation: state of the artEnergy-efficient biomass processing with pulsed electric fields for bioeconomy and sustainable development.Electrochemotherapy in pancreatic adenocarcinoma treatment: pre-clinical and clinical studiesRecommendations for improving the quality of reporting clinical electrochemotherapy studies based on qualitative systematic review.Dynamic finite-element model for efficient modelling of electric currents in electroporated tissuePulsed Electromagnetic Field Assisted in vitro Electroporation: A Pilot Study.Modeling the positioning of single needle electrodes for the treatment of breast cancer in a clinical case.Stereotactic modulation of blood-brain barrier permeability to enhance drug delivery.Investigation of the mechanisms of action behind Electromotive Drug Administration (EMDA)Modeling of microvascular permeability changes after electroporationThe role of additional pulses in electropermeabilization protocols.Effect of blood vessel segmentation on the outcome of electroporation-based treatments of liver tumorsElectrochemotherapy of colorectal liver metastases--an observational study of its effects on the electrocardiogram.Coupling treatment planning with navigation system: a new technological approach in treatment of head and neck tumors by electrochemotherapy.Cell Electrosensitization Exists Only in Certain Electroporation BuffersModification of Pulsed Electric Field Conditions Results in Distinct Activation Profiles of Platelet-Rich PlasmaElectrochemotherapy by pulsed electromagnetic field treatment (PEMF) in mouse melanoma B16F10 in vivoMapping of bionic array electric field focusing in plasmid DNA-based gene electrotransfer.The promising alliance of anti-cancer electrochemotherapy with immunotherapyElectroporation in food processing and biorefinery.Development of effective skin cancer treatment and prevention in xeroderma pigmentosum.Low immunogenicity in non-small cell lung cancer; do new developments and novel treatments have a role?Electrochemotherapy of tumors as in situ vaccination boosted by immunogene electrotransferSelective susceptibility to nanosecond pulsed electric field (nsPEF) across different human cell types.The Effect of Millisecond Pulsed Electric Fields (msPEF) on Intracellular Drug Transport with Negatively Charged Large Nanocarriers Made of Solid Lipid Nanoparticles (SLN): In Vitro Study.The Electroporation as a Tool for Studying the Role of Plasma Membrane in the Mechanism of Cytotoxicity of Bisphosphonates and Menadione.Gene electrotransfer of plasmid AMEP, an integrin-targeted therapy, has antitumor and antiangiogenic action in murine B16 melanoma.Modulation of activity of known cytotoxic ruthenium(III) compound (KP418) with hampered transmembrane transport in electrochemotherapy in vitro and in vivo.A statistical model describing combined irreversible electroporation and electroporation-induced blood-brain barrier disruption.Bleomycin pharmacokinetics of bolus bleomycin dose in elderly cancer patients treated with electrochemotherapy.Variation in dielectric properties due to pathological changes in human liver.Current density imaging sequence for monitoring current distribution during delivery of electric pulses in irreversible electroporation.Web-based tool for visualization of electric field distribution in deep-seated body structures and planning of electroporation-based treatments.Calcium-dependent activation of transglutaminase 2 by nanosecond pulsed electric fields.Design, characterization and experimental validation of a compact, flexible pulsed power architecture for ex vivo platelet activation.Delayed hypersensitivity to nanosecond pulsed electric field in electroporated cellsElectrochemotherapy (ECT) and irreversible electroporation (IRE) -advanced techniques for treating deep-seated tumors based on electroporation.Growth Inhibition and Membrane Permeabilization of Candida lusitaniae Using Varied Pulse Shape Electroporation.A Comprehensive Characterization of Parameters Affecting High-Frequency Irreversible Electroporation Lesions.Parametric optimization of electric field strength for cancer electrochemotherapy on a chip-based model.
P2860
Q26746226-0EF1528B-7AE5-434C-820C-0124FD0BC5BCQ26749014-F249219B-AB54-44B7-ABC6-E0746BAC8364Q26749111-54913635-6908-4FC1-BE47-58AB3E5F3C0CQ26749119-243AE8DE-7CE7-4425-A953-2384426DEAA8Q27313476-E6700D79-61CF-4ABD-B45F-72F7B91847F4Q30381718-D527A5BC-46D0-4D41-B6CB-8A65E4681463Q30402680-36AD8709-407C-4800-AC30-C58EF0AEADA9Q31114235-090DAB3F-78D5-4FBE-B019-9EDB5FA024F1Q34540470-F1ED4F37-5DF3-4DC9-8E97-CCD1F51DE58FQ35203487-5660FE69-20B4-4CDA-B482-DE58AC18DE08Q35463498-C58A7B29-2095-4152-94EB-05FC22995260Q35622283-ACE2E010-BFF9-4387-A520-3A1344956558Q36045691-71E9875F-BDE8-41C9-8312-5DABD0CB610FQ36047504-26E5185F-FA6B-4B8A-96C8-1B1289B4ECF6Q36084500-4099CD8C-8EE0-475A-B5DD-C76D136D30B0Q36111366-78355DB1-3835-402B-81C0-1590C29C863AQ36779838-41686541-3971-4A7C-B736-D6267F69894BQ36785009-91D79F02-4E8E-4095-A905-D6E508C55572Q37014373-49A43724-B2AD-4041-A2D7-AEC84092F2EBQ38257134-14A764BD-C287-44A6-968B-2C6B3BC04EEAQ38266357-4859662A-B893-4EDD-A6FA-40A120A81616Q38366141-6265C393-6818-45C9-AD7F-79A7A9BB36B5Q38525545-460E0958-9B65-4446-A0BB-066A42E953A7Q38725765-644CEBFF-F739-42B9-BA5B-F647EB310D4DQ38771470-5A51C1AE-95D3-4590-B25E-C5C3754C7A13Q38780783-ADB0471E-9AFF-4A8E-9287-F52825BD33ECQ38898489-F40A2FE7-BE2B-425B-98C3-6BA9791904F6Q38981930-16D57D38-C2DE-43FD-9A9F-0905202A08DBQ39858237-173DF22F-2DB9-4411-8415-613849475A44Q39908019-2B25C95F-D878-490C-8228-F032C5604D5FQ40385832-2E4D51C6-C51C-486A-ABB0-D1ACC9AE65C5Q40554965-926716CD-22B0-42B7-9F79-4C929AEE0629Q40555234-E63EA0DA-B5FD-4C3E-B28B-4784C1178A44Q40981694-147A816E-CFE8-4EA0-9465-B3ABFD83AA77Q41137618-734E6234-6275-4C28-A84A-5B51A1A97C71Q41476582-85EF93AB-064A-42CF-AADB-6B45790D8468Q41971775-D1F2CA81-96E4-4499-A328-41A55CC2CC7FQ42178504-16603022-8E05-4885-B07F-DB50208073D4Q45063628-49F4A27C-798B-45A3-9250-E38EDC6B70ACQ47093344-B9044247-AEE5-4F5C-B947-786557C6593C
P2860
Electrochemotherapy: from the drawing board into medical practice
description
2014 nî lūn-bûn
@nan
2014 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի մարտին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Electrochemotherapy: from the drawing board into medical practice
@ast
Electrochemotherapy: from the drawing board into medical practice
@en
Electrochemotherapy: from the drawing board into medical practice
@nl
type
label
Electrochemotherapy: from the drawing board into medical practice
@ast
Electrochemotherapy: from the drawing board into medical practice
@en
Electrochemotherapy: from the drawing board into medical practice
@nl
prefLabel
Electrochemotherapy: from the drawing board into medical practice
@ast
Electrochemotherapy: from the drawing board into medical practice
@en
Electrochemotherapy: from the drawing board into medical practice
@nl
P2093
P2860
P921
P3181
P356
P1476
Electrochemotherapy: from the drawing board into medical practice
@en
P2093
Barbara Mali
Gregor Serša
Richard Heller
P2860
P2888
P3181
P356
10.1186/1475-925X-13-29
P407
P5008
P577
2014-03-12T00:00:00Z
P5875
P6179
1006089926