References
- Talele, S. Drug Delivery by Electroporation: Review. Springer: New York, 2013; pp. 567–575.
- Frey, W.; White, J.A.; Price, R.O.; Blackmore, P.F.; Joshi, R.P.; Nuccitelli, R.; Beebe, S.J.; Schoenbach, K.H.; Kolb, J.F. Plasma Membrane Voltage Changes during Nanosecond Pulsed Electric Field Exposure. Biophys. J. 2006, 90(10), 3608–3615.
- Neumann, E.; Kakorin, S.; Toensing, K. Fundamentals of Electroporative Delivery of Drugs and Genes. Bioelectrochem Bioenerg. 1999, 48(1), 3–16.
- Teissié, J.; Escoffre, J.; Rols, M.; Golzio, M. Time Dependence of Electric Field Effects on Cell Membranes. A Review for a Critical Selection of Pulse Duration for Therapeutical Applications. Radiol. Oncol. 2008, 42(4), 196–206.
- Schoenbach, K.H.; Peterkin, F.E.; Alden, R.W.; Beebe, S.J. The Effect of Pulsed Electric Fields on Biological Cells: Experiments and Applications. IEEE Trans. Plasma Sci. 1997, 25(2), 284–292.
- Tsong, T.Y. Electroporation of Cell Membranes. Biophys. J. 1991, 60(2), 297–306.
- Orlowski, S.; Mir, L.M. Cell Electropermeabilization: A New Tool for Biochemical and Pharmacological Studies. Biochimica et Biophysica Acta (BBA) – Rev. Biomembr. 1993, 1154(1), 51–63.
- Huang, Y.; Rubinsky, B. Micro-Electroporation: Improving the Efficiency and Understanding of Electrical Permeabilization of Cells. Biomed. Microdev. 1999, 2(2), 145–150.
- Granot, Y.; Rubinsky, B. Methods of optimization of electrical impedance tomography for imaging tissue electroporation. Physiological Measurement. 2007, 28 (10), 1135–47.
- Mir, L.M.; Glass, L.F.; Sersa, G.; Teissie, J.; Domenge, C.; Miklavcic, D.; Jaroszeski, M.J.; Orlowski, S.; Reintgen, D.S.; Rudolf, Z. Effective Treatment of Cutaneous and Subcutaneous Malignant Tumours by Electrochemotherapy. Brit. J. Cancer 1998, 77(12), 2336–2342.
- Davalos, R.V.; Mir, L.M.; Rubinsky, B. Tissue Ablation with Irreversible Electroporation. Ann. Biomed. Eng. 2005, 33(2), 223–231.
- Gehl, J. Electroporation: theory and methods, perspectives for drug delivery, gene therapy and research. Acta Physiologica Scandinavica 2003, 177(4), 437–47.
- Heller, R.; Gilbert, R.; Jaroszeski, M.J. Clinical Applications of Electrochemotherapy. Adv. Drug Deliv. Rev. 1999, 35(1), 119–129.
- Reberšek, M.; Miklavčič, D. Advantages and Disadvantages of Different Concepts of Electroporation Pulse Generation. Automatika-J. Control Measure. Electron. Comput. Commun. 2011, 52(1), 12–19.
- Pavlin, M.; Kandušer, M.; Reberšek, M.; Pucihar, G.; Hart, F.X.; Magjarevićcacute; Ratko; Miklavčič, D. Effect of Cell Electroporation on the Conductivity of a Cell Suspension. Biophys. J. 2005, 88(6), 4378–4390.
- Staal, L.; Gilbert, R. Generators and Applicators: Equipment for Electroporation. Springer: New York, 2011; pp. 45–65.
- Reberšek, M.; Miklavčič, D. Concepts of Electroporation Pulse Generation and Overview of Electric Pulse Generators for Cell and Tissue Electroporation. In Advanced Electroporation Techniques in Biology and Medicine. Pakhomov, A.G., Maklavčič, D., Markov, M.S., eds., CRC Press: Boca Raton, FL, 2010; pp. 323–339.
- Novickij, V.; Grainys, A.; Novickij, J.; Tolvaisiene, S.; Markovskaja, S. Compact Electro-Permeabilization System for Controlled Treatment of Biological Cells and Cell Medium Conductivity Change Measurement. Measure. Sci. Rev. 2014, 14(5), 279–284.
- Flisar, K.; Meglic, S.H.; Morelj, J.; Golob, J.; Miklavcic, D. Testing a Prototype Pulse Generator for a Continuous Flow System and its Use for E. coli Inactivation and Microalgae Lipid Extraction. Bioelectrochemistry 2014, 100, 44–51.
- Flaxer, E. Note: High Resolution Ultra Fast High-Power Pulse Generator for Inductive Load using Digital Signal Processor. Rev. Sci. Instrum. 2014, 85(8), 086108.
- Arena, C.B.; Sano, M.B.; Rylander, M.N.; Davalos, R.V. Theoretical Considerations of Tissue Electroporation With High-Frequency Bipolar Pulses. IEEE Trans. Biomed. Eng. 2011, 58(5), 1474–1482.
- Sungwoo, B.; Kwasinski, A.; Flynn, M.M.; Hebner, R.E. High-Power Pulse Generator With Flexible Output Pattern. IEEE Trans. Power Electron. 2010, 25(7), 1675–1684.
- Kotnik, T.; Mir, L.M.; Flisar, K.; Puc, M.; Miklavcic, D. Cell Membrane Electropermeabilization by Symmetrical Bipolar Rectangular Pulses. Part I. Increased Efficiency of Permeabilization. Bioelectrochemistry 2001, 54(1), 83–90.
- Sano, M.B.; Arena, C.B.; DeWitt, M.R.; Saur, D.; Davalos, R.V. In-vitro Bipolar Nano- and Microsecond Electro-Pulse Bursts for Irreversible Electroporation Therapies. Bioelectrochemistry 2014, 100, 69–79.
- Dymek, K.; Dejmek, P.; Galindo, F.G. Influence of Pulsed Electric Field Protocols on the Reversible Permeabilization of Rucola Leaves. Food Bioprocess Technol. 2013, 7(3), 761–773.
- Arena, C.B.; Sano, M.B.; Rossmeisl, J.H.; Caldwell, J.L.; Garcia, P.A.; Rylander, M.N.; Davalos, R.V. High-Frequency Irreversible Electroporation (H-FIRE) for Non-Thermal Ablation without Muscle Contraction. Biomed. Eng. Online 2011, 10, 102.
- Esser, A.T.; Smith, K.C.; Gowrishankar, T.R.; Weaver, J.C. Towards Solid Tumor Treatment by Nanosecond Pulsed Electric Fields. Technol. Cancer Res. Treat. 2009, 8(4), 289–306.
- Rebersek, M.; Miklavcic, D.; Bertacchini, C.; Sack, M. Cell Membrane Electroporation-Part 3: The Equipment. IEEE Electr. Insul. Mag. 2014, 30(3), 8–18.
- Bertacchini, C.; Margotti, P.M.; Bergamini, E.; Lodi, A.; Ronchetti, M.; Cadossi, R. Design of an Irreversible Electroporation System for Clinical Use. Technol. Cancer Res. Treat. 2007, (4), 313–320.
- http://ixapps.ixys.com. Datasheet 40PG1200DHGLB. Accessed online 2015–04-24.
- Davari, P.; Zare, F.; Ghosh, A.; Akiyama, H. High-Voltage Modular Power Supply Using Parallel and Series Configurations of Flyback Converter for Pulsed Power Applications. IEEE Trans. Plasma Sci. 2012, 40(10), 2578–2587.