| scholarly article | Q13442814 |
| P2093 | author name string | Buescher ES | |
| Beebe SJ | |||
| Schoenbach KH | |||
| P2860 | cites work | Electroporation dynamics in biological cells subjected to ultrafast electrical pulses: A numerical simulation study | Q21686222 |
| Lateral diffusion in nuclear membranes | Q36213328 | ||
| P433 | issue | 6 | |
| P304 | page(s) | 440-448 | |
| P577 | publication date | 2001-09-01 | |
| P1433 | published in | Bioelectromagnetics | Q1954883 |
| P1476 | title | Intracellular effect of ultrashort electrical pulses | |
| P478 | volume | 22 |
| Q37999969 | A brief overview of electroporation pulse strength-duration space: a region where additional intracellular effects are expected |
| Q38964818 | A double-pulse approach for electrotransfection. |
| Q54375161 | A semiconductor opening switch based generator with pulse repetitive frequency of 4 MHz. |
| Q51332512 | A subnanosecond electric pulse exposure system for biological cells. |
| Q36791264 | Active mechanisms are needed to describe cell responses to submicrosecond, megavolt-per-meter pulses: cell models for ultrashort pulses |
| Q47755916 | Adrenal Chromaffin Cells Exposed to 5-ns Pulses Require Higher Electric Fields to Porate Intracellular Membranes than the Plasma Membrane: An Experimental and Modeling Study |
| Q34733999 | An apoptosis targeted stimulus with nanosecond pulsed electric fields (nsPEFs) in E4 squamous cell carcinoma |
| Q34867710 | An approach to electrical modeling of single and multiple cells |
| Q84573182 | Analysis of cell membrane permeabilization mechanics and pore shape due to ultrashort electrical pulsing |
| Q34070591 | Analysis of plasma membrane integrity by fluorescent detection of Tl(+) uptake |
| Q39718508 | Apoptosis initiation and angiogenesis inhibition: melanoma targets for nanosecond pulsed electric fields. |
| Q42022487 | Basic features of a cell electroporation model: illustrative behavior for two very different pulses |
| Q42872841 | Bioelectric applications for treatment of melanoma |
| Q37606071 | Bipolar nanosecond electric pulses are less efficient at electropermeabilization and killing cells than monopolar pulses. |
| Q44604424 | Calcium bursts induced by nanosecond electric pulses |
| Q34381508 | Cancellation of cellular responses to nanoelectroporation by reversing the stimulus polarity |
| Q49589389 | Cell Membrane Electropulsation: Chemical Analysis of Cell Membrane Modifications and Associated Transport Mechanisms |
| Q35911454 | Cell permeabilization and inhibition of voltage-gated Ca(2+) and Na(+) channel currents by nanosecond pulsed electric field |
| Q42608489 | Cell responses without receptors and ligands, using nanosecond pulsed electric fields (nsPEFs) |
| Q37520786 | Comparative study of nanosecond electric fields in vitro and in vivo on hepatocellular carcinoma indicate macrophage infiltration contribute to tumor ablation in vivo |
| Q39187941 | Cytotoxicity and uptake of archaeosomes prepared from Aeropyrum pernix lipids |
| Q34099237 | DNA electrophoretic migration patterns change after exposure of Jurkat cells to a single intense nanosecond electric pulse |
| Q48182465 | Delivery devices for exposure of biological cells to nanosecond pulsed electric fields |
| Q39553612 | Differential sensitivities of malignant and normal skin cells to nanosecond pulsed electric fields |
| Q36011792 | Diffuse, non-polar electropermeabilization and reduced propidium uptake distinguish the effect of nanosecond electric pulses |
| Q33927421 | Disassembly of actin structures by nanosecond pulsed electric field is a downstream effect of cell swelling |
| Q90532653 | Dual-function of Baicalin in nsPEFs-treated Hepatocytes and Hepatocellular Carcinoma cells for Different Death Pathway and Mitochondrial Response |
| Q26768114 | Effects of high voltage nanosecond electric pulses on eukaryotic cells (in vitro): A systematic review |
| Q35434311 | Effects of nanosecond pulse electric fields on cellular elasticity. |
| Q51686605 | Electric field-mediated growth of osteoblasts - the significant impact of dynamic flow of medium. |
| Q41074019 | Electrical behavior and pore accumulation in a multicellular model for conventional and supra-electroporation |
| Q42375982 | Electropermeabilization of Inner and Outer Cell Membranes with Microsecond Pulsed Electric Fields: Quantitative Study with Calcium Ions |
| Q40058864 | Electropermeabilization of endocytotic vesicles in B16 F1 mouse melanoma cells |
| Q26998879 | Electroporation Knows No Boundaries: The Use of Electrostimulation for siRNA Delivery in Cells and Tissues |
| Q42396649 | Electroporation by subnanosecond pulses |
| Q35089200 | Electroporation: theory and methods, perspectives for drug delivery, gene therapy and research |
| Q54195756 | Encapsulation of biomacromolecules within polymersomes by electroporation. |
| Q44903494 | Energy-landscape-model analysis for irreversibility and its pulse-width dependence in cells subjected to a high-intensity ultrashort electric pulse |
| Q34402129 | Enhanced breast cancer therapy with nsPEFs and low concentrations of gemcitabine |
| Q80703742 | Evidence of interlinks between bioelectromagnetics and biomechanics: from biophysics to medical physics |
| Q54529019 | Factors controlling electropermeabilisation of cell membranes. |
| Q37624810 | First-in-human trial of nanoelectroablation therapy for basal cell carcinoma: proof of method |
| Q33838105 | Gadolinium blocks membrane permeabilization induced by nanosecond electric pulses and reduces cell death |
| Q41869721 | Gene electrotransfer enhanced by nanosecond pulsed electric fields |
| Q37031754 | Hepatocellular carcinoma ablation and possible immunity in the age of nanosecond pulsed electric fields |
| Q40327002 | Implications of a simple mathematical model to cancer cell population dynamics |
| Q30665894 | In situ formation of magnetopolymersomes via electroporation for MRI. |
| Q39065641 | In vivo evidences of nanosecond pulsed electric fields for melanoma malignancy treatment on tumor-bearing BALB/c nude mice. |
| Q38202810 | Induction of Cell Death Mechanisms and Apoptosis by Nanosecond Pulsed Electric Fields (nsPEFs). |
| Q52931621 | Induction of apoptosis of liver cancer cells by nanosecond pulsed electric fields (nsPEFs). |
| Q28078671 | Innovative Alternative Technologies to Extract Carotenoids from Microalgae and Seaweeds |
| Q60342834 | Intracellular Delivery by Membrane Disruption: Mechanisms, Strategies, and Concepts |
| Q42266691 | Intracellular electroporation site distributions: modeling examples for nsPEF and IRE pulse waveforms |
| Q46164336 | Irreversible electroporation and apoptosis in human liver cancer cells induced by nanosecond electric pulses. |
| Q45044080 | Irreversible electroporation inhibits pro-cancer inflammatory signaling in triple negative breast cancer cells |
| Q39425788 | Long term survival of mice with hepatocellular carcinoma after pulse power ablation with nanosecond pulsed electric fields. |
| Q34574588 | Manipulation of cell volume and membrane pore comparison following single cell permeabilization with 60- and 600-ns electric pulses |
| Q61445087 | Mechanisms and immunogenicity of nsPEF-induced cell death in B16F10 melanoma tumors |
| Q33880383 | Mechanisms for the intracellular manipulation of organelles by conventional electroporation |
| Q40098247 | Mechanisms of electrically mediated cytosolic Ca2+ transients in aequorin-transformed tobacco cells. |
| Q38458324 | Mechanisms of transfer of bioactive molecules through the cell membrane by electroporation |
| Q51931860 | Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation. |
| Q91739183 | Microfluidic Electroporation Coupling Pulses of Nanoseconds and Milliseconds to Facilitate Rapid Uptake and Enhanced Expression of DNA in Cell Therapy |
| Q37910836 | Microsecond and nanosecond electric pulses in cancer treatments |
| Q48048398 | Miniaturized two-stack Blumlein pulser with a variable repetition-rate for non-thermal irreversible-electroporation experiments. |
| Q39683627 | Modified Blumlein pulse-forming networks for bioelectrical applications |
| Q33841072 | Multi-parametric study of temperature and thermal damage of tumor exposed to high-frequency nanosecond-pulsed electric fields based on finite element simulation. |
| Q35091306 | Multiple nanosecond electric pulses increase the number but not the size of long-lived nanopores in the cell membrane |
| Q90706097 | Nano-Pulse Stimulation Induces Changes in the Intracellular Organelles in Rat Liver Tumors Treated In Situ |
| Q42291172 | Nano-Pulse Stimulation is a physical modality that can trigger immunogenic tumor cell death |
| Q45068305 | Nano-pulse stimulation induces potent immune responses, eradicating local breast cancer while reducing distant metastases |
| Q36561796 | Nanoelectroablation of human pancreatic carcinoma in a murine xenograft model without recurrence |
| Q33260934 | Nanoelectropulse-driven membrane perturbation and small molecule permeabilization |
| Q40286068 | Nanoelectropulse-induced phosphatidylserine translocation |
| Q55001510 | Nanopulse Stimulation (NPS) Induces Tumor Ablation and Immunity in Orthotopic 4T1 Mouse Breast Cancer: A Review. |
| Q42810746 | Nanosecond Electric Pulses: A Novel Stimulus for Triggering Ca2+ Influx into Chromaffin Cells Via Voltage-Gated Ca2+ Channels |
| Q92151755 | Nanosecond Pulsed Electric Fields Induce Endoplasmic Reticulum Stress Accompanied by Immunogenic Cell Death in Murine Models of Lymphoma and Colorectal Cancer |
| Q37301001 | Nanosecond electric pulse effects on gene expression |
| Q39092565 | Nanosecond electric pulses affect a plant-specific kinesin at the plasma membrane |
| Q37280774 | Nanosecond electroporation: another look |
| Q37062348 | Nanosecond pulsed electric field stimulation of reactive oxygen species in human pancreatic cancer cells is Ca(2+)-dependent |
| Q34926149 | Nanosecond pulsed electric field suppresses development of eyes and germ cells through blocking synthesis of retinoic acid in Medaka (Oryzias latipes). |
| Q37733219 | Nanosecond pulsed electric fields (nsPEFs) regulate phenotypes of chondrocytes through Wnt/β-catenin signaling pathway |
| Q84263450 | Nanosecond pulsed electric fields act as a novel cellular stress that induces translational suppression accompanied by eIF2α phosphorylation and 4E-BP1 dephosphorylation |
| Q34805803 | Nanosecond pulsed electric fields cause melanomas to self-destruct |
| Q61444837 | Nanosecond pulsed electric fields enhanced chondrogenic potential of mesenchymal stem cells via JNK/CREB-STAT3 signaling pathway |
| Q92667433 | Nanosecond pulsed electric fields induce extracellular release of chromosomal DNA and histone citrullination in neutrophil-differentiated HL-60 cells |
| Q38946465 | Nanosecond pulsed electric fields modulate the expression of Fas/CD95 death receptor pathway regulators in U937 and Jurkat Cells |
| Q45013669 | Nanosecond pulsed electric fields perturb membrane phospholipids in T lymphoblasts |
| Q55265918 | Nanosecond pulsed electric fields promoting the proliferation of porcine iliac endothelial cells: An in vitro study. |
| Q46803626 | Non-electrolytic microelectroporation |
| Q36282236 | Oxidative effects of nanosecond pulsed electric field exposure in cells and cell-free media |
| Q39943282 | Phagocytic clearance of electric field induced 'apoptosis-mimetic' cells |
| Q36047861 | Picosecond and Terahertz Perturbation of Interfacial Water and Electropermeabilization of Biological Membranes |
| Q45208355 | Plasma membrane charging of Jurkat cells by nanosecond pulsed electric fields |
| Q37076996 | Plasma membrane permeabilization by 60- and 600-ns electric pulses is determined by the absorbed dose |
| Q33838386 | Plasma membrane permeabilization by trains of ultrashort electric pulses |
| Q33235337 | Plasma membrane voltage changes during nanosecond pulsed electric field exposure |
| Q36576042 | Primary pathways of intracellular Ca(2+) mobilization by nanosecond pulsed electric field |
| Q30491162 | Real-time imaging and tuning subcellular structures and membrane transport kinetics of single live cells at nanosecond regime |
| Q37138346 | Recruitment of the intracellular Ca2+ by ultrashort electric stimuli: the impact of pulse duration |
| Q34350422 | Selective field effects on intracellular vacuoles and vesicle membranes with nanosecond electric pulses. |
| Q44931335 | Self-consistent analyses for potential conduction block in nerves by an ultrashort high-intensity electric pulse |
| Q51004815 | Simulations of intracellular calcium release dynamics in response to a high-intensity, ultrashort electric pulse. |
| Q44914499 | Simulations of nanopore formation and phosphatidylserine externalization in lipid membranes subjected to a high-intensity, ultrashort electric pulse |
| Q44910695 | Simulations of transient membrane behavior in cells subjected to a high-intensity ultrashort electric pulse |
| Q98771200 | Starting a Fire Without Flame: The Induction of Cell Death and Inflammation in Electroporation-Based Tumor Ablation Strategies |
| Q42458729 | Stimulation of capacitative calcium entry in HL-60 cells by nanosecond pulsed electric fields |
| Q44672058 | Sub-microsecond, intense pulsed electric field applications to cells show specificity of effects |
| Q35920712 | Synergistic Combination of Electrolysis and Electroporation for Tissue Ablation |
| Q83459911 | Synergistic effects of local temperature enhancements on cellular responses in the context of high-intensity, ultrashort electric pulses |
| Q43061847 | The Electrode Modality Development in Pulsed Electric Field Treatment Facilitates Biocellular Mechanism Study and Improves Cancer Ablation Efficacy. |
| Q90737757 | The First Application of Nanoelectrochemotherapy in Feline Oral Malignant Melanoma Treatment-Case Study |
| Q40234606 | The effects of intense submicrosecond electrical pulses on cells |
| Q50511018 | The influence of pulsed electric field on hematological parameters in rat. |
| Q47104508 | The interaction between electromagnetic fields at megahertz, gigahertz and terahertz frequencies with cells, tissues and organisms: risks and potential |
| Q43203388 | Theoretical evaluation of voltage inducement on internal membranes of biological cells exposed to electric fields |
| Q34531804 | Transient features in nanosecond pulsed electric fields differentially modulate mitochondria and viability |
| Q36296579 | Transmembrane molecular transport during versus after extremely large, nanosecond electric pulses |
| Q30493578 | Transmembrane potential induced on the internal organelle by a time-varying magnetic field: a model study |
| Q46102211 | Transmembrane voltage analyses in spheroidal cells in response to an intense ultrashort electrical pulse |
| Q34876015 | Two modes of cell death caused by exposure to nanosecond pulsed electric field |
| Q39776742 | Two-dimensional nanosecond electric field mapping based on cell electropermeabilization |
| Q48636552 | Understanding the response of pulsed electric field on osteoblast functions in three-dimensional mesh structures |
| Q37328099 | What is (still not) known of the mechanism by which electroporation mediates gene transfer and expression in cells and tissues |
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