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International Journal of Hyperthermia Volume 35, 2018 - Issue 1
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Research Article

Effects of internal electrode cooling on irreversible electroporation using a perfused organ model

Timothy J. O’BrienInstitute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; Correspondence[email protected] [email protected]
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,
Mohammad BonakdarInstitute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; Correspondence[email protected] [email protected]
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,
Suyashree BhonsleInstitute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; View further author information
,
Robert E. Neal IIAngiodynamics, Latham, NY, USA; View further author information
,
Charles H. Aardema Jr.Institute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; View further author information
,
John L. RobertsonInstitute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; View further author information
,
S. Nahum GoldbergDepartment of Radiology, Hadassah Hebrew University Medical Center, Jerusalem, IsraelView further author information
&
Rafael V. DavalosInstitute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA; View further author information
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Pages 44-55 | Received 04 Dec 2017, Accepted 03 May 2018, Published online: 28 May 2018

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Pierre Agnass, Eran van Veldhuisen, Martin J. C. van Gemert, Cees W. M. van der Geld, Krijn P. van Lienden, Thomas M. van Gulik, Martijn R. Meijerink, Marc G. Besselink, H. Petra Kok & Johannes Crezee. (2020) Mathematical modeling of the thermal effects of irreversible electroporation for in vitro, in vivo, and clinical use: a systematic review. International Journal of Hyperthermia 37:1, pages 486-505.
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Timothy J. O’Brien, Melvin F. Lorenzo, Yajun Zhao, Robert E. Neal II, John L. Robertson, S. Nahum Goldberg & Rafael V. Davalos. (2019) Cycled pulsing to mitigate thermal damage for multi-electrode irreversible electroporation therapy. International Journal of Hyperthermia 36:1, pages 952-962.
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Articles from other publishers (31)

Zaid S. Salameh, Kenneth N. Aycock, Nastaran Alinezhadbalalami, Khan Mohammad Imran, Iain H. McKillop, Irving C. Allen & Rafael V. Davalos. (2023) Harnessing the Electrochemical Effects of Electroporation-Based Therapies to Enhance Anti-tumor Immune Responses. Annals of Biomedical Engineering 52:1, pages 48-56.
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Agung Tri Wijayanta & Kosaku Kurata. (2023) Comprehensive review on thermal aspects of nonthermal irreversible electroporation. Heat Transfer 52:6, pages 4357-4381.
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P. Agnass, H.M. Rodermond, E. van Veldhuisen, J.A. Vogel, R. ten Cate, K.P. van Lienden, T.M. van Gulik, N.A.P. Franken, A.L. Oei, H.P. Kok, M.G. Besselink & J. Crezee. (2023) Quantitative analysis of contribution of mild and moderate hyperthermia to thermal ablation and sensitization of irreversible electroporation of pancreatic cancer cells. Journal of Thermal Biology 115, pages 103619.
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Bart Geboers, Matthijs J. Scheltema, Alexandar Blazevski, Athos Katelaris, Paul Doan, Imran Ali, Shikha Agrawal, Daniela Barreto, Jayne Matthews, Anne‐Maree Haynes, Warick Delprado, Ron Shnier, James E. Thompson & Phillip D. Stricker. (2023) Median 4‐year outcomes of salvage irreversible electroporation for localized radio‐recurrent prostate cancer. BJU International 131:S4, pages 14-22.
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Prashanth Lakshmi Narasimhan, Zoi Tokoutsi, Davide Baroli, Marco Baragona, Karen Veroy, Ralph Maessen & Andreas Ritter. (2023) Global sensitivity study for irreversible electroporation: Towards treatment planning under uncertainty. Medical Physics 50:3, pages 1290-1304.
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Ting Shu, Lujia Ding, Zheng Fang, Shuangquan Yu, Lingchao Chen, Michael A. J. Moser, Wenjun Zhang, Zhiyong Qin & Bing Zhang. (2022) Lethal Electric Field Thresholds for Cerebral Cells With Irreversible Electroporation and H-FIRE Protocols: An In Vitro Three-Dimensional Cell Model Study. Journal of Biomechanical Engineering 144:10.
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Olga Michel, Wojciech Szlasa, Dagmara Baczyńska, Jolanta Saczko, Mounir Tarek & Julita Kulbacka. (2022) The role of catechin in electroporation of pancreatic cancer cells – Effects on pore formation and multidrug resistance proteins. Bioelectrochemistry 147, pages 108199.
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Sabrina N. Campelo, Edward J. JacobsIVIV, Kenneth N. Aycock & Rafael V. Davalos. (2022) Real-Time Temperature Rise Estimation during Irreversible Electroporation Treatment through State-Space Modeling. Bioengineering 9:10, pages 499.
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Alan Sugrue, Elad Maor, Freddy Del-Carpio Munoz, Ammar M Killu & Samuel J Asirvatham. (2022) Cardiac ablation with pulsed electric fields: principles and biophysics. EP Europace 24:8, pages 1213-1222.
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Ross A. Petrella, Shani L. Levit, Christopher C. Fesmire, Christina Tang & Michael B. Sano. (2022) Polymer Nanoparticles Enhance Irreversible Electroporation In Vitro. IEEE Transactions on Biomedical Engineering 69:7, pages 2353-2362.
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Kenneth N. Aycock, Sabrina N. Campelo & Rafael V. Davalos. (2022) A Comparative Modeling Study of Thermal Mitigation Strategies in Irreversible Electroporation Treatments. Journal of Heat Transfer 144:3.
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Yajun Zhao, Iain H. McKillop & Rafael V. Davalos. (2022) Modeling of a single bipolar electrode with tines for irreversible electroporation delivery. Computers in Biology and Medicine 142, pages 104870.
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Pierre Agnass, Krijn P. van Lienden, Thomas M. van Gulik, Marc G. Besselink, Johannes Crezee & H. Petra Kok. (2022) Improving Prediction of the Potential Distribution Induced by Cylindrical Electrodes within a Homogeneous Rectangular Grid during Irreversible Electroporation. Applied Sciences 12:3, pages 1471.
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Helena Cindric, Panchatcharam Mariappan, Lukas Beyer, Philipp Wiggermann, Michael Moche, Damijan Miklavcic & Bor Kos. (2021) Retrospective Study for Validation and Improvement of Numerical Treatment Planning of Irreversible Electroporation Ablation for Treatment of Liver Tumors. IEEE Transactions on Biomedical Engineering 68:12, pages 3513-3524.
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Girindra Wardhana, João Pedro Almeida, Momen Abayazid & Jurgen J. Fütterer. (2021) Development of a thermal model for irreversible electroporation: an approach to estimate and optimize the IRE protocols. International Journal of Computer Assisted Radiology and Surgery 16:8, pages 1325-1334.
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Kenneth N. Aycock, Yajun Zhao, Melvin F. Lorenzo & Rafael V. Davalos. (2021) A Theoretical Argument for Extended Interpulse Delays in Therapeutic High-Frequency Irreversible Electroporation Treatments. IEEE Transactions on Biomedical Engineering 68:6, pages 1999-2010.
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Michael B. Sano, Christopher C. Fesmire & Ross A. Petrella. (2020) Electro-Thermal Therapy Algorithms and Active Internal Electrode Cooling Reduce Thermal Injury in High Frequency Pulsed Electric Field Cancer Therapies. Annals of Biomedical Engineering 49:1, pages 191-202.
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Helena Cindrič, Bor Kos & Damijan Miklavčič. 2021. Electroporation in Veterinary Oncology Practice. Electroporation in Veterinary Oncology Practice 21 59 .
Michael B. SanoMatthew R. DeWitt. (2020) Thermochromic Tissue Phantoms for Evaluating Temperature Distribution in Simulated Clinical Applications of Pulsed Electric Field Therapies. Bioelectricity 2:4, pages 362-371.
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Yajun Zhao & Rafael V. Davalos. (2020) Development of an endothermic electrode for electroporation-based therapies: A simulation study. Applied Physics Letters 117:14, pages 143702.
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Ross Aaron Petrella, Christopher C. Fesmire, Jacob D. Kaufman, Nomi Topasna & Michael B. Sano. (2020) Algorithmically Controlled Electroporation: A Technique for Closed Loop Temperature Regulated Pulsed Electric Field Cancer Ablation. IEEE Transactions on Biomedical Engineering 67:8, pages 2176-2186.
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Christopher C. Fesmire, Ross A. Petrella, Callie A. Fogle, David A. Gerber, Lei Xing & Michael B. Sano. (2020) Temperature Dependence of High Frequency Irreversible Electroporation Evaluated in a 3D Tumor Model. Annals of Biomedical Engineering 48:8, pages 2233-2246.
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Zhen-Guo Liu, Xin-Hua Chen, Zu-Jiang Yu, Jun Lv & Zhi-Gang Ren. (2020) Recent progress in pulsed electric field ablation for liver cancer. World Journal of Gastroenterology 26:24, pages 3421-3431.
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Florentine E.F. Timmer, Bart Geboers, Alette H. Ruarus, Evelien A.C. Schouten, Sanne Nieuwenhuizen, Robbert S. Puijk, Jan J.J. de Vries, Martijn R. Meijerink & Hester J. Scheffer. (2020) Irreversible Electroporation for Locally Advanced Pancreatic Cancer. Techniques in Vascular and Interventional Radiology 23:2, pages 100675.
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Michael B. Sano, Ross A. Petrella, Jacob D. Kaufman, Christopher C. Fesmire, Lei Xing, David Gerber & Callie A. Fogle. (2020) Electro-thermal therapy: Microsecond duration pulsed electric field tissue ablation with dynamic temperature control algorithms. Computers in Biology and Medicine 121, pages 103807.
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Bart Geboers, Hester J. Scheffer, Philip M. Graybill, Alette H. Ruarus, Sanne Nieuwenhuizen, Robbert S. Puijk, Petrousjka M. van den Tol, Rafael V. Davalos, Boris Rubinsky, Tanja D. de Gruijl, Damijan Miklavčič & Martijn R. Meijerink. (2020) High-Voltage Electrical Pulses in Oncology: Irreversible Electroporation, Electrochemotherapy, Gene Electrotransfer, Electrofusion, and Electroimmunotherapy. Radiology 295:2, pages 254-272.
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Matthew R. DeWitt, Eduardo Lattouche, Jacob D. Kaufman, Christopher C. Fesmire, Jacob Swet, Russel Kirks, Erin Baker, Dionisios Vrochides, David Iannitti, Ian McKillop, Rafael V. Davalos & Michael Sano. (2020) Simplified Non-Thermal Tissue Ablation With A Single Insertion Device Enabled By Bipolar High-Frequency Pulses. IEEE Transactions on Biomedical Engineering, pages 1-1.
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Jacob D. Kaufman, Christopher C. Fesmire, Ross A. Petrella, Callie A. Fogle, Lei Xing, David Gerber & Michael B. Sano. (2020) High-Frequency Irreversible Electroporation Using 5,000-V Waveforms to Create Reproducible 2- and 4-cm Ablation Zones—A Laboratory Investigation Using Mechanically Perfused Liver. Journal of Vascular and Interventional Radiology 31:1, pages 162-168.e7.
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Francois H. Cornelis, Helena Cindrič, Bor Kos, Masashi Fujimori, Elena N. Petre, Damijan Miklavčič, Stephen B. Solomon & Govindarajan Srimathveeravalli. (2019) Peri-tumoral Metallic Implants Reduce the Efficacy of Irreversible Electroporation for the Ablation of Colorectal Liver Metastases. CardioVascular and Interventional Radiology 43:1, pages 84-93.
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Timothy J. O’Brien, Michael Passeri, Melvin F. Lorenzo, Jesse K. Sulzer, William B. Lyman, Jacob H. Swet, Dionisios Vrochides, Erin H. Baker, David A. Iannitti, Rafael V. Davalos & Iain H. McKillop. (2019) Experimental High-Frequency Irreversible Electroporation Using a Single-Needle Delivery Approach for Nonthermal Pancreatic Ablation In Vivo. Journal of Vascular and Interventional Radiology 30:6, pages 854-862.e7.
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