Bioelectromagnetics

Volume 22, Issue 6

Research Article

Intracellular effect of ultrashort electrical pulses

Karl H. Schoenbach

Corresponding Author

E-mail address:schoenbach@ece.odu.edu

Physical Electronics Research Institute, Old Dominion University, Norfolk, Virginia

Physical Electronics Research Institute, Old Dominion University, Norfolk, VA 23529.

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Stephen J. Beebe

Center for Pediatric Research, Eastern Virginia Medical School and Children's Hospital of The King's Daughters, Norfolk, Virginia

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E. Stephen Buescher

Center for Pediatric Research, Eastern Virginia Medical School and Children's Hospital of The King's Daughters, Norfolk, Virginia

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Karl H. Schoenbach

Corresponding Author

E-mail address:schoenbach@ece.odu.edu

Physical Electronics Research Institute, Old Dominion University, Norfolk, Virginia

Physical Electronics Research Institute, Old Dominion University, Norfolk, VA 23529.

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Stephen J. Beebe

Center for Pediatric Research, Eastern Virginia Medical School and Children's Hospital of The King's Daughters, Norfolk, Virginia

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E. Stephen Buescher

Center for Pediatric Research, Eastern Virginia Medical School and Children's Hospital of The King's Daughters, Norfolk, Virginia

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First published: 09 August 2001

https://doi.org/10.1002/bem.71

Cited by: 336

Abstract

A simple electrical model for biological cells predicts an increasing probability for electric field interactions with cell substructures of prokaryotic and eukaryotic cells when the electric pulse duration is reduced into the sub‐microsecond range. The validity of this hypothesis was verified experimentally by applying electrical pulses with electric field intensities of up to 5.3 MV/m to human eosinophils in vitro. When 3–5 pulses of 60 ns duration were applied to human eosinophils, intracellular granules were modified without permanent disruption of the plasma membrane. In spite of the extreme electrical power levels applied to the cells thermal effects could be neglected because of the ultrashort pulse duration. The intracellular effect extends conventional electroporation to cellular substructures and opens the potential for new applications in apoptosis induction, gene delivery to the nucleus, or altered cell functions, depending on the electrical pulse conditions. Bioelectromagnetics 22:440–448, 2001. © 2001 Wiley‐Liss, Inc.

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Characterization of a TEM cell-based setup for the exposure of biological cell suspensions to high-intensity nanosecond pulsed electric fields (nsPEFs)

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Kyle C. Smith and James C. Weaver, Transmembrane molecular transport during versus after extremely large, nanosecond electric pulses, Biochemical and Biophysical Research Communications, 412, 1, (8), (2011).
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D.K. Kang, S.H.R. Hosseini, E. Shiraishi, M. Yamanaka and H. Akiyama

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K. Mitsutake, S. Moriyama, K. Abe, S. Katsuki, H. Akiyama, T. Shuto and H. Kai

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Aude Silve and Lluis M. Mir

Exposition of cells in suspension using nanosecond duration electric pulses-detection of permeabilisation by cloning efficiency tests: Results and artifacts

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Keiko Morotomi-Yano, Hidenori Akiyama and Ken-ichi Yano, Nanosecond pulsed electric fields activate MAPK pathways in human cells, Archives of Biochemistry and Biophysics, 10.1016/j.abb.2011.09.002, 515, 1-2, (99-106), (2011).
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Nakarin Pinpathomrat, Teerayut Kaweeferngfu, Atthawit Laphodom, N.E. Islam and Phumin Kirawanich, Inhibition of Culex quinquefasciatus (Diptera: Culicidae) viability by nanosecond pulsed electric field radiation, Journal of Electrostatics, 69, 4, (339), (2011).
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Funian Xiao, J F Leary, L Reece, I G Camarillo, M Sundararajan and R Sundararajan

Nanosecond, low voltage electro-endocrine-therapy for breast cancer treatment

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Qin Hu, Olaoluwa Fadiran, Wenjun Li and Ravindra P. Joshi

Angela M. Bowman, Olena M. Nesin, Olga N. Pakhomova and Andrei G. Pakhomov, Analysis of Plasma Membrane Integrity by Fluorescent Detection of Tl+ Uptake, The Journal of Membrane Biology, 236, 1, (15), (2010).
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Ravindra P. Joshi and Qin Hu, Analysis of cell membrane permeabilization mechanics and pore shape due to ultrashort electrical pulsing, Medical & Biological Engineering & Computing, 10.1007/s11517-010-0659-1, 48, 9, (837-844), (2010).
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Kang DongKoo, S. H. R. Hosseini, Nakamitsu Satoshi, Yamanaka Masato, Shiraishi Eri, Sakugawa Takashi, Katsuki Sunao and Akiyama Hidenori

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Gintautas Saulis, Electroporation of Cell Membranes: The Fundamental Effects of Pulsed Electric Fields in Food Processing, Food Engineering Reviews, 2, 2, (52), (2010).
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Kazunori Mitsutake, Akimitsu Satoh, Shingo Mine, Keisuke Abe, Sunao Katsuki and Hidenori Akiyama

Study of effect of pulsing sequence of nanosecond pulsed electric fields on viability of HeLa S3 cell

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Matej Rebersek, Matej Kranjc, Denis Pavliha, Tina Batista-Napotnik, Danilo Vrtacnik, Slavko Amon and Damijan Miklavcic, Blumlein Configuration for High-Repetition-Rate Pulse Generation of Variable Duration and Polarity Using Synchronized Switch Control, IEEE Transactions on Biomedical Engineering, 10.1109/TBME.2009.2027422, 56, 11, (2642-2648), (2009).
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Axel T. Esser, Kyle C. Smith, T. R. Gowrishankar and James C. Weaver, Towards Solid Tumor Treatment by Nanosecond Pulsed Electric Fields, Technology in Cancer Research & Treatment, 10.1177/153303460900800406, 8, 4, (289-306), (2009).
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Naoyuki Nomura, Masahiko Yano, Sunao Katsuki, Hidenori Akiyama, Keisuke Abe and Shin-ichi Abe, Intracellular DNA damage induced by non-thermal, intense narrowband electric fields, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1288), (2009).
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Jose Rey, Richard Connolly, Mark Jaroszeski, Andrew Hoff, J. Llewellyn and Richard Gilbert, Electrostrictive forces on vesicles with compartmentalized permittivity and conductivity conditions, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1280), (2009).
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Q. Hu and R. P. Joshi, Transmembrane voltage analyses in spheroidal cells in response to an intense ultrashort electrical pulse, Physical Review E, 10.1103/PhysRevE.79.011901, 79, 1, (2009).
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Karl Schoenbach, Ravindra Joshi, Stephen Beebe and Carl Baum, A scaling law for membrane permeabilization with nanopulses, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1224), (2009).
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Jean-Michel Escoffre, Thomas Portet, Luc Wasungu, Justin Teissié, David Dean and Marie-Pierre Rols, What is (Still not) Known of the Mechanism by Which Electroporation Mediates Gene Transfer and Expression in Cells and Tissues, Molecular Biotechnology, 41, 3, (286), (2009).
Crossref

(2009)

S.J. Beebe, W.E. Ford, Wei Ren, Xinhua Chen and K.H. Schoenbach

Non-ionizing radiation with nanosecond pulsed electric fields as a cancer treatment: in vitro studies

(2009)

10.1109/IEMBS.2009.5333139

Elisabeth Bellard and Justin Teissié, Double pulse approach of electropulsation: a fluorescence analysis of the nucleus perturbation at the single cell level, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1267), (2009).
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Q. Hu and R.P. Joshi, Analysis of Intense, Subnanosecond Electrical Pulse-Induced Transmembrane Voltage in Spheroidal Cells With Arbitrary Orientation, IEEE Transactions on Biomedical Engineering, 56, 6, (1617), (2009).
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Raji Sundararajan, Nanosecond Electroporation: Another Look, Molecular Biotechnology, 41, 1, (69), (2009).
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(2009)

D.K. Kang, S. Nakamitsu, S.H.R. Hosseini, S. Iwasaki, S. Kono, N. Tominaga, T. Sakugawa, S. Katsuki and H. Akiyama

Effects of nanosecond pulsed electric field on the embryonic development of medaka fish egg (Oryzias latipes)

(2009)

10.1109/PPC.2009.5386164

Christian Eing, Simone Bonnet, Michael Pacher, Holger Puchta and Wolfgang Frey, Effects of nanosecond pulsed electric field exposure on arabidopsis thaliana, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1322), (2009).
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Shaka S. Scarlett, Jody A. White, Peter F. Blackmore, Karl H. Schoenbach and Juergen F. Kolb, Regulation of intracellular calcium concentration by nanosecond pulsed electric fields, Biochimica et Biophysica Acta (BBA) - Biomembranes, 1788, 5, (1168), (2009).
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Gale Craviso, Paroma Chatterjee, Gabriel Maalouf, Alex Cerjanic, Jihwan Yoon, Indira Chatterjee and P. Vernier, Nanosecond electric pulse-induced increase in intracellular calcium in adrenal chromaffin cells triggers calcium-dependent catecholamine release, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1294), (2009).
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Chenguo Yao, Xiaoqian Hu, Yan Mi, Chengxiang Li and Caixin Sun, Window effect of pulsed electric field on biological cells, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1259), (2009).
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Vinitha Donthula, Bruno Camps-Raga, Naz Islam, Anna Slusarz, Dennis Lubahn and Venkataseshu Ganjam, Effects of nanosecond pulsed electric fields on the human prostate cancer cell line LNCaP, IEEE Transactions on Dielectrics and Electrical Insulation, 16, 5, (1311), (2009).
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E. Bellard and J. Teissie, Double-Pulse Approach of Electrogenotherapy: An Analysis at the Single Cell Level, IEEE Transactions on Plasma Science, 37, 4, (538), (2009).
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(2009)

Jie Zhuang, W. Hunter Baldwin, Karl H. Schoenbach and Juergen F. Kolb

Pulsed electric field induced changes in dielectric properties of biological cells

(2009)

10.1109/PPC.2009.5386104

Pawan K. Tiwari, Sung Kil Kang, Gon Jun Kim, Jun Choi, A.-A. H. Mohamed and Jae Koo Lee, Modeling of Nanoparticle-Mediated Electric Field Enhancement Inside Biological Cells Exposed to AC Electric Fields, Japanese Journal of Applied Physics, 48, 8, (087001), (2009).
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Miroslav Joler, Christos G. Christodoulou and Edl Schamiloglu, Limitations to compacting a parallel‐plate Blumlein pulse‐forming line, International Journal of RF and Microwave Computer-Aided Engineering, 18, 2, (176-186), (2008).
Wiley Online Library
Robert Kavet, William H. Bailey, T. Dan Bracken and Robert M. Patterson, Recent advances in research relevant to electric and magnetic field exposure guidelines, Bioelectromagnetics, 29, 7, (499-526), (2008).
Wiley Online Library

(2008)

S. Xiao, T. Kiyan, P. F. Blackmore and K. H. Schoenbach

Pulsed Power for Wound Healing

(2008)

10.1109/IPMC.2008.4743579

Chenguo Yao, Yan Mi, Chengxiang Li, Xiaoqian Hu, Xin Chen and Caixin Sun, Study of Transmembrane Potentials on Cellular Inner and Outer Membrane—Frequency Response Model and Its Filter Characteristic Simulation, IEEE Transactions on Biomedical Engineering, 55, 7, (1792), (2008).
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P. Thomas Vernier, Yinghua Sun, Meng-Tse Chen, Martin A. Gundersen and Gale L. Craviso, Nanosecond electric pulse-induced calcium entry into chromaffin cells, Bioelectrochemistry, 10.1016/j.bioelechem.2008.02.003, 73, 1, (1-4), (2008).
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Jason R. Grenier, Shesha H. Jayaram, Mehrdad Kazerani, Haifeng Wang and Mansel W. Griffiths, MOSFET-Based Pulse Power Supply for Bacterial Transformation, IEEE Transactions on Industry Applications, 44, 1, (25), (2008).
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Kyle C. Smith and James C. Weaver, Active Mechanisms Are Needed to Describe Cell Responses to Submicrosecond, Megavolt-per-Meter Pulses: Cell Models for Ultrashort Pulses, Biophysical Journal, 10.1529/biophysj.107.121921, 95, 4, (1547-1563), (2008).
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Joshua W. Henshaw and Fan Yuan, Field distribution and DNA transport in solid tumors during electric field‐mediated gene delivery, Journal of Pharmaceutical Sciences, 97, 2, (691-711), (2007).
Wiley Online Library
Mojca Pavlin, Tadej Kotnik, Damijan Miklavčič, Peter Kramar and Alenka Maček Lebar, Chapter Seven Electroporation of Planar Lipid Bilayers and Membranes, , 10.1016/S1554-4516(07)06007-3, (165-226), (2008).
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K.H. Schoenbach, Shu Xiao, R.P. Joshi, J.T. Camp, T. Heeren, J.F. Kolb and S.J. Beebe, The Effect of Intense Subnanosecond Electrical Pulses on Biological Cells, IEEE Transactions on Plasma Science, 36, 2, (414), (2008).
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Howard L. Gerber, Ravindra P. Joshi and Charles C. Tseng, Using Bode Plots to Access Intracellular Coupling, IEEE Transactions on Plasma Science, 36, 4, (1659), (2008).
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Jue Zhang, Peter F. Blackmore, Barbara Y. Hargrave, Shu Xiao, Stephen J. Beebe and Karl H. Schoenbach, Nanosecond pulse electric field (nanopulse): A novel non-ligand agonist for platelet activation, Archives of Biochemistry and Biophysics, 471, 2, (240), (2008).
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E. Tekle, M.D. Wolfe, H. Oubrahim and P.B. Chock, Phagocytic clearance of electric field induced ‘apoptosis-mimetic’ cells, Biochemical and Biophysical Research Communications, 376, 2, (256), (2008).
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R.P. Joshi, A. Mishra, Jiahui Song, A.G. Pakhomov and K.H. Schoenbach, Simulation Studies of Ultrashort, High-Intensity Electric Pulse Induced Action Potential Block in Whole-Animal Nerves, IEEE Transactions on Biomedical Engineering, 55, 4, (1391), (2008).
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Andrei G. Pakhomov, Juergen F. Kolb, Jody A. White, Ravindra P. Joshi, Shu Xiao and Karl H. Schoenbach, Long‐lasting plasma membrane permeabilization in mammalian cells by nanosecond pulsed electric field (nsPEF), Bioelectromagnetics, 28, 8, (655-663), (2007).
Wiley Online Library
Edward B. Garon, David Sawcer, P. Thomas Vernier, Tao Tang, Yinghua Sun, Laura Marcu, Martin A. Gundersen and H. Phillip Koeffler, In vitro and in vivo evaluation and a case report of intense nanosecond pulsed electric field as a local therapy for human malignancies, International Journal of Cancer, 121, 3, (675-682), (2007).
Wiley Online Library
Karl Schoenbach, Barbara Hargrave, Ravindra Joshi, Juergen Kolb, Richard Nuccitelli, Christopher Osgood, Andrei Pakhomov, Michael Stacey, R. Swanson, Jody White, Shu Xiao, Jue Zhang, Stephen Beebe, Peter Blackmore and E. Buescher, Bioelectric Effects of Intense Nanosecond Pulses, IEEE Transactions on Dielectrics and Electrical Insulation, 10.1109/TDEI.2007.4339468, 14, 5, (1088-1109), (2007).
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Sunao Katsuki, Naoyuki Nomura, Hideto Koga, Hidenori Akiyama, Ichiro Uchida and Shin-ichi Abe, Biological effects of narrow band pulsed electric fields, IEEE Transactions on Dielectrics and Electrical Insulation, 14, 3, (663), (2007).
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Y. Sun, S. Xiao, J. White, J. Kolb, M. Stacey and K. Schoenbach, Compact, Nanosecond, High Repetition Rate, Pulse Generator for Bioelectric Studies, IEEE Transactions on Dielectrics and Electrical Insulation, 14, 4, (863), (2007).
Crossref
Andrei G. Pakhomov, Rachael Shevin, Jody A. White, Juergen F. Kolb, Olga N. Pakhomova, Ravindra P. Joshi and Karl H. Schoenbach, Membrane permeabilization and cell damage by ultrashort electric field shocks, Archives of Biochemistry and Biophysics, 465, 1, (109), (2007).
Crossref
Nianyong Chen, Allen L. Garner, George Chen, Yu Jing, Yuping Deng, R. James Swanson, Juergen F. Kolb, Stephen J. Beebe, Ravindra P. Joshi and Karl H. Schoenbach, Nanosecond electric pulses penetrate the nucleus and enhance speckle formation, Biochemical and Biophysical Research Communications, 10.1016/j.bbrc.2007.09.125, 364, 2, (220-225), (2007).
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Pavitra Krishnaswamy, Andras Kuthi, P. Vernier and Martin Gundersen, Compact Subnanosecond Pulse Generator Using Avalanche Transistors for Cell Electroperturbation Studies, IEEE Transactions on Dielectrics and Electrical Insulation, 14, 4, (873), (2007).
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Emily H. Hall, Karl H. Schoenbach and Stephen J. Beebe, Nanosecond Pulsed Electric Fields Have Differential Effects on Cells in The S-Phase, DNA and Cell Biology, 26, 3, (160), (2007).
Crossref

(2007)

N. Nomura, Y. Yamamoto, R. Hayashi, K. Uto, S. Katsuki, H. Akiyama, I. Uchida, S-I. Abe and H. Takano

DNA fragmentation induced by Intense Burst Sinusoidal Electric Fields

(2007)

10.1109/PPPS.2007.4651930

Emily H. Hall, Karl H. Schoenbach and Stephen J. Beebe, Nanosecond pulsed electric fields induce apoptosis in p53-wildtype and p53-null HCT116 colon carcinoma cells, Apoptosis, 12, 9, (1721), (2007).
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R. P. Joshi, A. Nguyen, V. Sridhara, Q. Hu, R. Nuccitelli, S. J. Beebe, J. Kolb and K. H. Schoenbach, Simulations of intracellular calcium release dynamics in response to a high-intensity, ultrashort electric pulse, Physical Review E, 75, 4, (2007).
Crossref
R. P. Joshi, A. Mishra, Q. Hu, K. H. Schoenbach and A. Pakhomov, Self-consistent analyses for potential conduction block in nerves by an ultrashort high-intensity electric pulse, Physical Review E, 10.1103/PhysRevE.75.061906, 75, 6, (2007).
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M.B. Fox, Microbial inactivation kinetics of pulsed electric field treatment, Food Preservation by Pulsed Electric Fields, 10.1533/9781845693831.2.127, (127-137), (2007).
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(2007)

P. Krishnaswamy, A. Kuthi, Meng-Tse Chen, Shih-Jui Chen, P. Thomas Vernier and M.A. Gundersen

Compact high voltage subnanosecond pulsed power delivery system for biological applications

(2007)

10.1109/PPPS.2007.4651885

V.L. Sukhorukov, J.M. Endter, D. Zimmermann, R. Shirakashi, S. Fehrmann, M. Kiesel, R. Reuss, D. Becker, R. Hedrich, E. Bamberg, Th. Roitsch and U. Zimmermann, Mechanisms of Electrically Mediated Cytosolic Ca2+ Transients in Aequorin-Transformed Tobacco Cells, Biophysical Journal, 93, 9, (3324), (2007).
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Tadej Kotnik and Damijan Miklavčič, Theoretical Evaluation of Voltage Inducement on Internal Membranes of Biological Cells Exposed to Electric Fields, Biophysical Journal, 90, 2, (480), (2006).
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M. B. Fox, D. C. Esveld, A. Valero, R. Luttge, H. C. Mastwijk, P. V. Bartels, A. van den Berg and R. M. Boom, Electroporation of cells in microfluidic devices: a review, Analytical and Bioanalytical Chemistry, 385, 3, (474), (2006).
Crossref

(2006)

Tammo Heeren, Juergen F. Kolb, Shu Xiao, Karl H. Schoenbach and Hidenori Akiyama

Pulsed Power Generators and Delivery Devices for Bioelectrical Applications

(2006)

10.1109/MODSYM.2006.365290

(2006)

J.F. Kolb, W. Frey, J.A. White, S.J. Beebe, R.P. Joshi and K.H. Schoenbach

Cell Membrane Charging in Intense Nanosecond Pulsed Electric Fields

(2006)

10.1109/MODSYM.2006.365314

H.L. Gerber, A. Bassi and C.C. Tseng, Determining a Pulse Coupling to Subcellular Components With a Frequency-Domain Transfer Function, IEEE Transactions on Plasma Science, 34, 4, (1425), (2006).
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A. L. Garner, Y. Y. Lau, D. W. Jordan, M. D. Uhler and R. M. Gilgenbach, Implications of a simple mathematical model to cancer cell population dynamics, Cell Proliferation, 39, 1, (15-28), (2006).
Wiley Online Library
Richard Nuccitelli, Uwe Pliquett, Xinhua Chen, Wentia Ford, R. James Swanson, Stephen J. Beebe, Juergen F. Kolb and Karl H. Schoenbach, Nanosecond pulsed electric fields cause melanomas to self-destruct, Biochemical and Biophysical Research Communications, 343, 2, (351), (2006).
Crossref
W. Frey, J.A. White, R.O. Price, P.F. Blackmore, R.P. Joshi, R. Nuccitelli, S.J. Beebe, K.H. Schoenbach and J.F. Kolb, Plasma Membrane Voltage Changes during Nanosecond Pulsed Electric Field Exposure, Biophysical Journal, 90, 10, (3608), (2006).
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R. Narsetti, R.D. Curry, K.F. Mcdonald, T.E. Clevenger and L.M. Nichols, Microbial Inactivation in Water Using Pulsed Electric Fields and Magnetic Pulse Compressor Technology, IEEE Transactions on Plasma Science, 34, 4, (1386), (2006).
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K.C. Smith, T.R. Gowrishankar, A.T. Esser, D.A. Stewart and J.C. Weaver, The Spatially Distributed Dynamic Transmembrane Voltage of Cells and Organelles due to 10 ns Pulses: Meshed Transport Networks, IEEE Transactions on Plasma Science, 34, 4, (1394), (2006).
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T.R. Gowrishankar and James C. Weaver, Electrical behavior and pore accumulation in a multicellular model for conventional and supra-electroporation, Biochemical and Biophysical Research Communications, 349, 2, (643), (2006).
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Thiruvallur R. Gowrishankar, Axel T. Esser, Zlatko Vasilkoski, Kyle C. Smith and James C. Weaver, Microdosimetry for conventional and supra-electroporation in cells with organelles, Biochemical and Biophysical Research Communications, 341, 4, (1266), (2006).
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T.R. Gowrishankar, Donald A. Stewart and James C. Weaver, Model of a confined spherical cell in uniform and heterogeneous applied electric fields, Bioelectrochemistry, 68, 2, (181), (2006).
Crossref

(2006)

S.J. Beebe, E.H. Hall and K.H. Schoenbach

Diverse Effects of Wideband Intense, Non-Ionizing Radiation on Cells and Tissues

(2006)

10.1109/MODSYM.2006.365312

F. Bistolfi, Evidence of interlinks between bioelectromagnetics and biomechanics: from biophysics to medical physics, Physica Medica, 10.1016/S1120-1797(06)80002-5, 22, 3, (71-95), (2006).
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P Thomas Vernier, Matthew J Ziegler, Yinghua Sun, Martin A Gundersen and D Peter Tieleman, Nanopore-facilitated, voltage-driven phosphatidylserine translocation in lipid bilayers—in cells and in silico, Physical Biology, 3, 4, (233), (2006).
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(2006)

Adam Lodes, Randy D. Curry, Renuka Narsetti and Leland M. Nichols

Pulsed Electric Fields Inactivation of Vegetative Bacteria in Drinking Water Utilizing Magnetic Pulse Compressor Technology

(2006)

10.1109/MODSYM.2006.365311

Q. Hu, V. Sridhara, R.P. Joshi, J.F. Kolb and K.H. Schoenbach, Molecular Dynamics Analysis of High Electric Pulse Effects on Bilayer Membranes Containing DPPC and DPPS, IEEE Transactions on Plasma Science, 34, 4, (1405), (2006).
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Zlatko Vasilkoski, Axel T. Esser, T. R. Gowrishankar and James C. Weaver, Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation, Physical Review E, 74, 2, (2006).
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Yinghua Sun, P. Thomas Vernier, Matthew Behrend, Jingjing Wang, Mya Mya Thu, Martin Gundersen and Laura Marcu, Fluorescence microscopy imaging of electroperturbation in mammalian cells, Journal of Biomedical Optics, 11, 2, (024010), (2006).
Crossref

(2006)

K. H. Schoenbach, S. Katsuki, H. Akiyama, T. Heeren, J. F. Kolb, S. Xiao, T. Camp, R. P. Joshi, C. Osgood, R. Nuccitelli and S. J. Beebe

Biological Effects of Intense Subnanosecond Electrical Pulses

(2006)

10.1109/MODSYM.2006.365316

Naoya Kobayashi, Jorge David Rivas‐Carrillo, Alejandro Soto‐Gutierrez, Takuya Fukazawa, Yong Chen, Nalu Navarro‐Alvarez and Noriaki Tanaka, Gene delivery to embryonic stem cells, Birth Defects Research Part C: Embryo Today: Reviews, 75, 1, (10-18), (2005).
Wiley Online Library
S. Su, Weizhong Dai, Donald T. Haynie and N. Simicevic, Use of the z‐transform to investigate nanopulse penetration of biological matter, Bioelectromagnetics, 26, 5, (389-397), (2005).
Wiley Online Library
Timothy E. Vaughan and James C. Weaver, Molecular change signal‐to‐noise criteria for interpreting experiments involving exposure of biological systems to weakly interacting electromagnetic fields, Bioelectromagnetics, 26, 4, (305-322), (2005).
Wiley Online Library
Emily H. Hall, Karl H. Schoenbach and Stephen J. Beebe, Nanosecond Pulsed Electric Fields (nsPEF) Induce Direct Electric Field Effects and Biological Effects on Human Colon Carcinoma Cells, DNA and Cell Biology, 24, 5, (283), (2005).
Crossref

(2005)

Yan Mi, Caixin Sun, Chenguo Yao, Lan Xiong, Shibin Wang, Chengxiang Li, Jun Li and Lina Hu

Lethal Effects of Steep Pulsed Electric Field (SPEF) to Target Lymphatic Capillaries in VX2Implanted Breast Cancer of Rabbits

(2005)

10.1109/IEMBS.2005.1615572

Ephrem Tekle, Hammou Oubrahim, Sergey M. Dzekunov, Juergen F. Kolb, Karl H. Schoenbach and P.B. Chock, Selective Field Effects on Intracellular Vacuoles and Vesicle Membranes with Nanosecond Electric Pulses, Biophysical Journal, 89, 1, (274), (2005).
Crossref
Crossref
Allen L. Garner, Y. Y. Lau, Trachette L. Jackson, Michael D. Uhler, David W. Jordan and Ronald M. Gilgenbach, Incorporating spatial dependence into a multicellular tumor spheroid growth model, Journal of Applied Physics, 98, 12, (124701), (2005).
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(2005)

N. Nomura, Y. Koga, S. Abe, I. Uchida, K. Abe, S. Katsuki, T. Namihira, H. Akiyama, H. Takano, S. Abe and S. Kohno

Response of Biological Cell Exposed on Burst RF Fields

(2005)

10.1109/PPC.2005.300673

Q. Hu, S. Viswanadham, R. P. Joshi, K. H. Schoenbach, S. J. Beebe and P. F. Blackmore, Simulations of transient membrane behavior in cells subjected to a high-intensity ultrashort electric pulse, Physical Review E, 10.1103/PhysRevE.71.031914, 71, 3, (2005).
Crossref
Q. Hu, R. P. Joshi and K. H. Schoenbach, Simulations of nanopore formation and phosphatidylserine externalization in lipid membranes subjected to a high-intensity, ultrashort electric pulse, Physical Review E, 10.1103/PhysRevE.72.031902, 72, 3, (2005).
Crossref
Y. Sun, P.T. Vernier, M. Behrend, L. Marcu and M.A. Gundersen, Electrode Microchamber for Noninvasive Perturbation of Mammalian Cells With Nanosecond Pulsed Electric Fields, IEEE Transactions on Nanobioscience, 4, 4, (277), (2005).
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S. Su, W. Dai, D. T. Haynie, R. Nassar and N. Simicevic, Numerical Simulation of Nanopulse Penetration of Biological Matter Using the z-Transform, Journal of Mathematical Modelling and Algorithms, 4, 1, (99), (2005).
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(2005)

P.T. Vernier, Yinghua Sun, Jingjing Wang, M.M. Thu, E. Garon, M. Valderrabano, L. Marcu, H.P. Koeffler and M.A. Gundersen

Nanoelectropulse Intracellular Perturbation and Electropermeabilization Technology: Phospholipid Translocation, Calcium Bursts, Chromatin Rearrangement, Cardiomyocyte Activation, and Tumor Cell Sensitivity

(2005)

10.1109/IEMBS.2005.1615820

P. Thomas Vernier, Yinghua Sun, Laura Marcu, Cheryl M. Craft and Martin A. Gundersen, Nanoelectropulse-Induced Phosphatidylserine Translocation, Biophysical Journal, 86, 6, (4040), (2004).
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D.A. Stewart, T.R. Gowrishankar and J.C. Weaver, Transport Lattice Approach to Describing Cell Electroporation: Use of a Local Asymptotic Model, IEEE Transactions on Plasma Science, 32, 4, (1696), (2004).
Crossref
Nianyong Chen, Karl H. Schoenbach, Juergen F. Kolb, R. James Swanson, Allen L. Garner, Jing Yang, Ravindra P. Joshi and Stephen J. Beebe, Leukemic cell intracellular responses to nanosecond electric fields, Biochemical and Biophysical Research Communications, 317, 2, (421), (2004).
Crossref

(2004)

R.P. Joshi K.H. Schoenbachk

Ultrashort electrical pulses open a new gateway into biological cells

10.1109/MODSYM.2004.1433545

Stephen J Beebe, Peter F Blackmore, Jody White, Ravindra P Joshi and Karl H Schoenbach, Nanosecond pulsed electric fields modulate cell function through intracellular signal transduction mechanisms, Physiological Measurement, 25, 4, (1077), (2004).
Crossref
A.G. Pakhomov, A. Phinney, J. Ashmore, K. Walker, J.F. Kolb, S. Kono, K.H. Schoenbach and M.R. Murphy, Characterization of the Cytotoxic Effect of High-Intensity, 10-ns Duration Electrical Pulses, IEEE Transactions on Plasma Science, 32, 4, (1579), (2004).
Crossref

(2004)

A.L. Garner, J. Yang, N. Chen, J. Kolb, K.C. Loftin, R.J. Swanson, S. Beebe, R.P. Joshi and K.H. Schoenbach

Altering dielectric properties of human cancer cells by varying electrical pulse durations

10.1109/PLASMA.2004.1339773

P.Thomas Vernier, Yinghua Sun, Laura Marcu, Cheryl M. Craft and Martin A. Gundersen, Nanosecond pulsed electric fields perturb membrane phospholipids in T lymphoblasts, FEBS Letters, 572, 1-3, (103-108), (2004).
Wiley Online Library
Jody A. White, Peter F. Blackmore, Karl H. Schoenbach and Stephen J. Beebe, Stimulation of Capacitative Calcium Entry in HL-60 Cells by Nanosecond Pulsed Electric Fields, Journal of Biological Chemistry, 279, 22, (22964), (2004).
Crossref

(2004)

R.P. Joshi, Q. Hu, K.H. Schoenbach and V.K. Lakdawala

Modeling the dynamical response of biological cells

10.1109/CEIDP.2004.1364258

(2004)

S. J. MacGregor K. Wan

Evidence of nuclear membrane damage in yeast cells treated with pulsed electric fields

10.1109/MODSYM.2004.1433654

K.H. Schoenbach, R.P. Joshi, J.F. Kolb, Nianyong Chen, M. Stacey, P.F. Blackmore, E.S. Buescher and S.J. Beebe, Ultrashort electrical pulses open a new gateway into biological cells, Proceedings of the IEEE, 92, 7, (1122), (2004).
Crossref

(2004)

K. Baumung W. Frey

Real-time imaging of the membrane cirarging of mamalian cells exposed to nanosecond pulsed electric fields

10.1109/MODSYM.2004.1433547

A.L. Garner, N. Chen, J. Yang, J. Kolb, R.J. Swanson, K.C. Loftin, S.J. Beebe, R.P. Joshi and K.H. Schoenbach, Time Domain Dielectric Spectroscopy Measurements of HL-60 Cell Suspensions After Microsecond and Nanosecond Electrical Pulses, IEEE Transactions on Plasma Science, 32, 5, (2073), (2004).
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R. P. Joshi, Q. Hu, K. H. Schoenbach and S. J. Beebe, Energy-landscape-model analysis for irreversibility and its pulse-width dependence in cells subjected to a high-intensity ultrashort electric pulse, Physical Review E, 69, 5, (2004).
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R.P. Joshi, Q. Hu and K.H. Schoenbach, Modeling Studies of Cell Response to Ultrashort, High-Intensity Electric Fields—Implications for Intracellular Manipulation, IEEE Transactions on Plasma Science, 32, 4, (1677), (2004).
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(2004)

S.-Y. Tseng, T.-F. Wu, H.-R. Yang, J.-C. Guo and J.-C. Hung

Soft-switching series-resonant converter to generate high output voltage for processing microbes

10.1109/APEC.2004.1295930

P.T. Vernier, M.M.S. Thu, L. Marcu, C.M. Craft and M.A. Gundersen, Nanosecond Electroperturbation—Mammalian Cell Sensitivity and Bacterial Spore Resistance, IEEE Transactions on Plasma Science, 32, 4, (1620), (2004).
Crossref

(2004)

K.H. Schoenbach, R. Joshi, J. Kolb, S. Buescher and S. Beebe

Subcellular effects of nanosecond electrical pulses

10.1109/IEMBS.2004.1404522

(2004)

Jody White Stephen J. Beebe

Nanosecond pulsed electric fields mimic natural cell signal transduction mechanisms

10.1109/MODSYM.2004.1433548

E.S. Buescher, R.R. Smith and K.H. Schoenbach, Submicrosecond Intense Pulsed Electric Field Effects on Intracellular Free Calcium: Mechanisms and Effects, IEEE Transactions on Plasma Science, 32, 4, (1563), (2004).
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P.T. Vernier, Aimin Li, L. Marcu, C.M. Craft and M.A. Gundersen, Ultrashort pulsed electric fields induce membrane phospholipid translocation and caspase activation: differential sensitivities of Jurkat T lymphoblasts and rat Glioma C6 cells, IEEE Transactions on Dielectrics and Electrical Insulation, 10.1109/TDEI.2003.1237329, 10, 5, (795-809), (2003).
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Pamela S. Hair, Karl H. Schoenbach and E.Stephen Buescher, Sub-microsecond, intense pulsed electric field applications to cells show specificity of effects, Bioelectrochemistry, 61, 1-2, (65), (2003).
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E.S. Buescher and K.H. Schoenbach, Effects of submicrosecond, high intensity pulsed electric fields on living cells-intracellular electromanipulation, IEEE Transactions on Dielectrics and Electrical Insulation, 10, 5, (788), (2003).
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T. R. Gowrishankar and J. C. Weaver, An approach to electrical modeling of single and multiple cells, Proceedings of the National Academy of Sciences, 100, 6, (3203), (2003).
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Dietmar Rabussay, Nagendu B Dev, Jason Fewell, Louis C Smith, Georg Widera and Lei Zhang, Enhancement of therapeutic drug and DNA delivery into cells by electroporation*, Journal of Physics D: Applied Physics, 36, 4, (348), (2003).
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M Stacey, J Stickley, P Fox, V Statler, K Schoenbach, S.J Beebe and S Buescher, Differential effects in cells exposed to ultra-short, high intensity electric fields: cell survival, DNA damage, and cell cycle analysis, Mutation Research/Genetic Toxicology and Environmental Mutagenesis, 10.1016/j.mrgentox.2003.08.006, 542, 1-2, (65-75), (2003).
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(2003)

A.L. Garner, J. Yang, N. Chen, J. Kolb, K.C. Loftin, R.J. Swanson, S. Beebe, R.P. Joshi and K.H. Schoenbach

Effects of electrical pulses on the dielectric properties of biological cells

10.1109/CEIDP.2003.1254792

J.C. Weaver, Electroporation of biological membranes from multicellular to nano scales, IEEE Transactions on Dielectrics and Electrical Insulation, 10.1109/TDEI.2003.1237325, 10, 5, (754-768), (2003).
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Jingdong Deng, Karl H. Schoenbach, E. Stephen Buescher, Pamela S. Hair, Paula M. Fox and Stephen J. Beebe, The Effects of Intense Submicrosecond Electrical Pulses on Cells, Biophysical Journal, 84, 4, (2709), (2003).
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R.P. Joshi, Q. Hu and K.H. Schoenbach, Dynamical modeling of cellular response to short-duration, high-intensity electric fields, IEEE Transactions on Dielectrics and Electrical Insulation, 10.1109/TDEI.2003.1237327, 10, 5, (778-787), (2003).
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(2003)

R.P. Joshi, Q. Hu, K.H. Schoenbach and V.K. Lakdawala

Modeling studies of cellular response to ultrashort, high-intensity electric fields

10.1109/CEIDP.2003.1254867

(2002)

M. Gundersen, P.T. Vernier, L. Marcu, Aimin Li, Xhumei Zhu, A.Z. Gallam, T. Katsouleas, C. Young, M. Behrend and C.M. Craft

Ultrashort pulse electroporation: applications of high pulsed electric fields to induced caspase activation of human lymphocytes

10.1109/MODSYM.2002.1189565

(2002)

S. Katsuki, K. Moreira, F. Dobbs, R.P. Joshi and K.H. Schoenbach

Bacterial decontamination with nanosecond pulsed electric fields

10.1109/MODSYM.2002.1189561

M. P. Rols, M. Golzio, B. Gabriel and J. Teissié, Factors Controlling Electropermeabilisation of Cell Membranes, Technology in Cancer Research & Treatment, 10.1177/153303460200100502, 1, 5, (319-327), (2016).
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S.J. Beebe, P.M. Fox, L.J. Rec, K. Somers, R.H. Stark and K.H. Schoenbach, Nanosecond pulsed electric field (nsPEF) effects on cells and tissues: apoptosis induction and tumor growth inhibition, IEEE Transactions on Plasma Science, 30, 1, (286), (2002).
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R. P. Joshi and K. H. Schoenbach, Mechanism for membrane electroporation irreversibility under high-intensity, ultrashort electrical pulse conditions, Physical Review E, 66, 5, (2002).
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(2002)

S.J. Beebe, P. Fox, L. Rec, L. Willis and K. Schoenbach

Nanosecond pulsed electric field effects on human cells

10.1109/MODSYM.2002.1189562

K.H. Schoenbach, S. Katsuki, R.H. Stark, E.S. Buescher and S.J. Beebe, Bioelectrics-new applications for pulsed power technology, IEEE Transactions on Plasma Science, 30, 1, (293), (2002).
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(2001)

S.J. Beebe, P.M. Fox, L.J. Rec, K. Somers, R.H. Stark and K.H. Schoenbach

Nanosecond pulsed electric field (nsPEF) effects on cells and tissues: apoptosis induction and tumor growth inhibition

10.1109/PPPS.2001.1002030

K.H. Schoenbach, R.P. Joshi, R.H. Stark, F.C. Dobbs and S.J. Beebe, Bacterial decontamination of liquids with pulsed electric fields, IEEE Transactions on Dielectrics and Electrical Insulation, 7, 5, (637), (2000).
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(2000)

K.H. Schoenbach, R.H. Stark, J. Deng, R.E.-S. Aly, S.J. Beebe and E.S. Buescher

Biological/medical pulsed electric field treatments

(2000)

10.1109/MODSYM.2000.896160

Eri Shiraishi, Hamid Hosseini, Dong K. Kang, Takeshi Kitano, Hidenori Akiyama and Maria Rosaria Scarfi, Nanosecond Pulsed Electric Field Suppresses Development of Eyes and Germ Cells through Blocking Synthesis of Retinoic Acid in Medaka (Oryzias latipes), PLoS ONE, 10.1371/journal.pone.0070670, 8, 8, (e70670), (2013).
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Malak Soueid, Martinus C. F. Dobbelaar, Sabrina Bentouati, Sylvia M. Bardet, Rodney P. O’Connor, Delphine Bessières, Jean Paillol, Philippe Leveque and Delia Arnaud-Cormos, Delivery devices for exposure of biological cells to nanosecond pulsed electric fields, Medical & Biological Engineering & Computing, 10.1007/s11517-017-1676-0, (2017).
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Stephen J. Beebe, Karl H. Schoenbach and Richard Heller, Bioelectric Applications for Treatment of Melanoma, Cancers, 10.3390/cancers2031731, 2, 3, (1731-1770), (2010).
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Stephen J. Beebe, Yeong-Jer Chen, Nova M. Sain, Karl H. Schoenbach, Shu Xiao and Agustin Guerrero-Hernandez, Transient Features in Nanosecond Pulsed Electric Fields Differentially Modulate Mitochondria and Viability, PLoS ONE, 10.1371/journal.pone.0051349, 7, 12, (e51349), (2012).
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Olga N. Pakhomova, Betsy W. Gregory, Iurii Semenov, Andrei G. Pakhomov and Maria Rosaria Scarfi, Two Modes of Cell Death Caused by Exposure to Nanosecond Pulsed Electric Field, PLoS ONE, 10.1371/journal.pone.0070278, 8, 7, (e70278), (2013).
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Stephen Beebe, Nova Sain and Wei Ren, Induction of Cell Death Mechanisms and Apoptosis by Nanosecond Pulsed Electric Fields (nsPEFs), Cells, 10.3390/cells2010136, 2, 1, (136-162), (2013).
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Volume22, Issue6

September 2001

Pages 440-448

Bioelectromagnetics

Intracellular effect of ultrashort electrical pulses

Abstract

Number of times cited: 336

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Intracellular effect of ultrashort electrical pulses

Abstract

Number of times cited: 336

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