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Journal of Bioelectricity Volume 9, 1990 - Issue 2
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Original Article

Tumor Bioelectric Potential and its Possible Exploitation for Tumor Growth Retardation

D. Miklavcic Faculty of Electrical, Computer Engineering Edvard Kardelj University, Trzaska, 25 61 000, Ljubljana, Yugoslavia
,
G. Sersa Laboratory of Immunology, Institute of Oncology, Zaloska, 2 61 000, Ljubljana, Yugoslavia
,
S. Novaković Laboratory of Immunology, Institute of Oncology, Zaloska, 2 61 000, Ljubljana, Yugoslavia
&
S. Rebersek Faculty of Electrical, Computer Engineering Edvard Kardelj University, Trzaska, 25 61 000, Ljubljana, Yugoslavia
Pages 133-149 | Published online: 07 Jul 2009

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Antony K Teresa Infanta. S, Nisshanthini Durairaju, Senthil Raja, Thandeeswaran Murugesan, Anand Raj Dhanapal, Karupannan Natarajan, Ajithkumar Balakrishnan, Hemamalini Vedagiri, Palaniswamy Muthusamy & Angayarkanni Jayaraman. (2023) Pharmacological assessment of Ru(II) complex with GidA protein- A novel topoisomerase II inhibitor towards cancer therapeutics. Journal of Biomolecular Structure and Dynamics 41:9, pages 4143-4153.
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Magdy M. Ghannam, R. H. El-Gebaly, M. H. Gaber & Fadel M. Ali. (2002) INHIBITION OF EHRLICH TUMOR GROWTH IN MICE BY ELECTRIC INTERFERENCE THERAPY (IN VIVO STUDIES). Electromagnetic Biology and Medicine 21:3, pages 255-268.
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AshokK. Vijh. (1999) ELECTROCHEMICAL TREATMENT OF TUMORS (ECT): ELECTROOSMOTIC DEWATERING (EOD) AS THE PRIMARY MECHANISM. Drying Technology 17:3, pages 586-596.
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J. Berendson & J. M. Olsson. (1998) Bioelectrochemical Aspects of the Treatment of Tissue with Direct Current. Electro- and Magnetobiology 17:1, pages 1-16.
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Damijan Miklavčič, Dejan Šemrov, Vojko Valenčič, Gregor Serša & Lojze Vodovnik. (1997) Tumor Treatment by Direct Electric Current: Computation of Electric Current and Power Density Distribution. Electro- and Magnetobiology 16:2, pages 119-128.
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Bruce C. Towe, Farshad Shirazi & Ali Kakavand. (1996) Investigation of Cancer Tumor Biopotential in Relation to Tumor Ph. Electro- and Magnetobiology 15:1, pages 19-36.
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Damijan Miklavčič & Gregor Serša. (1992) Conflicting Data on Biological Systems Treated with Electrical Direct Current. Electro- and Magnetobiology 11:1, pages 67-69.
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Robert O. Becker. (1992) Effect of Anodally Generated Silver Ions on Fibrosarcoma Cells. Electro- and Magnetobiology 11:1, pages 57-65.
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Damijan Miklavĉiĉ, Lojze Vodovnik, Fedja Bobanovic, Stanislav Reberŝek, Gregor Serŝa, Srdjan Novaković & Rastko Golouh. (1992) Local Treatment of Murine Tumors by Electric Direct Current. Electro- and Magnetobiology 11:2, pages 109-125.
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Michael I. Webb, Ryan A. Chard, Yaser M. Al-Jobory, Michael R. Jones, Edwin W. Y. Wong & Charles J. Walsby. (2011) Pyridine Analogues of the Antimetastatic Ru(III) Complex NAMI-A Targeting Non-Covalent Interactions with Albumin. Inorganic Chemistry 51:2, pages 954-966.
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A M Hassan & M El-Shenawee. (2010) Modeling Biopotential Signals and Current Densities of Multiple Breast Cancerous Cells. IEEE Transactions on Biomedical Engineering 57:9, pages 2099-2106.
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P. Turjanski, N. Olaiz, P. Abou-Adal, C. Suárez, M. Risk & G. Marshall. (2009) pH front tracking in the electrochemical treatment (EChT) of tumors: Experiments and simulations. Electrochimica Acta 54:26, pages 6199-6206.
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L. Colombo, G. González, G. Marshall, F.V. Molina, A. Soba, C. Suarez & P. Turjanski. (2007) Ion transport in tumors under electrochemical treatment: In vivo, in vitro and in silico modeling. Bioelectrochemistry 71:2, pages 223-232.
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Neva Bešker, Cecilia Coletti, Alessandro Marrone & Nazzareno Re. (2007) Binding of Antitumor Ruthenium Complexes to DNA and Proteins:  A Theoretical Approach. The Journal of Physical Chemistry B 111:33, pages 9955-9964.
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José Ribamar O. Filho, Welter C. Silva, José Clayston M. Pereira & Douglas W. Franco. (2006) Binding of cysteine and glutathione to Ru(II) and Ru(III) centers: Formation and products reactivities. Inorganica Chimica Acta 359:9, pages 2888-2895.
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Ashok K. Vijh. 2006. Modern Aspects of Electrochemistry. Modern Aspects of Electrochemistry 231 274 .
Michael J. Clarke. (2003) Ruthenium metallopharmaceuticals. Coordination Chemistry Reviews 236:1-2, pages 209-233.
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Michael J. Clarke. (2002) Ruthenium metallopharmaceuticals. Coordination Chemistry Reviews 232:1-2, pages 69-93.
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Eva Nilsson, Henrik von Euler, Jaak Berendson, Anders Thörne, Peter Wersäll, Ingemar Näslund, Anne-Sofie Lagerstedt, Kristina Narfström & Jerker M Olsson. (2000) Electrochemical treatment of tumours. Bioelectrochemistry 51:1, pages 1-11.
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Michael J. Clarke, Fuchun Zhu & Dominic R. Frasca. (1999) Non-Platinum Chemotherapeutic Metallopharmaceuticals. Chemical Reviews 99:9, pages 2511-2534.
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L. Vodovnik, D. Miklavcic & T. Kotnik. (1998) Electrical neuroimmunomodulation-a possible mechanism for wound and cancer treatment. Electrical neuroimmunomodulation-a possible mechanism for wound and cancer treatment.
J W CostertonB EllisK LamF JohnsonA E Khoury. (1994) Mechanism of electrical enhancement of efficacy of antibiotics in killing biofilm bacteria. Antimicrobial Agents and Chemotherapy 38:12, pages 2803-2809.
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Damijan Miklavčič, Aleš Fajgelj & Gregor Serša. (1994) Tumour treatment by direct electric current: Electrode material deposition. Bioelectrochemistry and Bioenergetics 35:1-2, pages 93-97.
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Fedja Bobanovic, Sasa Simcic, Lojze Vodovnik & Vladimir Kotnik. (1992) Enhancement of phorbol myristate acetate induced oxidative burst in human neutrophils by means of pulsed electric current. Enhancement of phorbol myristate acetate induced oxidative burst in human neutrophils by means of pulsed electric current.
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