Share This Article:

Is Victory over Pancreatic Cancer Possible, with the Help of Tuned Non-Invasive Physiotherapy? A Case Study Says Yes

Full-Text HTML XML Download Download as PDF (Size:2240KB) PP. 460-477
DOI: 10.4236/jct.2014.55053    6,004 Downloads   11,648 Views   Citations

ABSTRACT

Could the conventional treatment of pancreatic cancer effectively be supplemented by a low level and non-invasive bio-electromagnetic treatment? A case study, based on the regular exposure of a patient to an electromagnetic field, EMF, emitted by a Rife-Bare technology device, suggests so. The plasma confined in a tube of this apparatus emitted radiofrequency solitons. These low level emissions were modulated by an “audio” frequency generator, pre-programmed for the treatment of this disease. After less than two months of exposure to these EMFs, the tumor completely disappeared in approximately two weeks. The explanation of the action mechanism includes a physics aspect relating to the properties of the dissipative soliton which is emitted-absorbed by any non-linear system, a biophysics aspect relating to the coherent structuring of the cellular bath by incident solitons, and finally a biological aspect. The latter is characterized by a critical resonance frequency leading the “unicellular” tumoral cell to adopt a self-destructive behavior. On the other hand EMFs with low level solitons have no effect on the tissues of complex multicellular organisms.

Cite this paper

Le Chapellier, P. and Matta, B. (2014) Is Victory over Pancreatic Cancer Possible, with the Help of Tuned Non-Invasive Physiotherapy? A Case Study Says Yes. Journal of Cancer Therapy, 5, 460-477. doi: 10.4236/jct.2014.55053.

References

[1] Oettle, H. (2013) Recent Developments and Current Issues in the Treatment of Pancreatic Cancer. Journal of Cancer Therapy, 4, 13-27. http://dx.doi.org/10.4236/jct.2013.410A003
[2] Wolfgang, C.L., Herman, J.M., Lahreu, D.A.Z., Klein, A.P. and Erdek, M.A. (2013) Recent Progress in Pancreatic Cancer, CA. A Cancer Journal for Clinicians, 63, 318-348.
http://dx.doi.org/10.1002/caac.21190
[3] Stathis, R.A. and Moore, M.J. (2010) Advanced Pancreatic Carcinoma: Current Treatment and Future Challenges. Nature Reviews, Clinical Oncology, 7, 163-172.
[4] Costa, J. (2012) Cancer, Encyclopaedia Britannica, Chicago.
[5] Cartlidge, E. (2013) Breast Cells in a Spin. Physics of Cancer, Physics World, 26, 28-32.
[6] Pradeu, Th. (2007) Immunology and Definition of Biological Identity. Doctorate Thesis, Paris1 Panthéon-Sorbonne University, Paris.
[7] Hammel, P. and André, Th. (2012) Pancreatic Cancer in Questions. Foundation ARCAD, Paris. www.fondationarcad.org
[8] Ball, P. (2013) Killing Me Softly. Physics of Cancer, Physics World, 26, 34-35.
[9] Tabor, E. (2002) Viruses and Liver Cancer, Perspectives in Medical Virology 6, Elsevier Sciences.
[10] Hassan, M.M., Li, D., El-Daab, A.S., Wolff, R.A., Bondy, M.L., Davila, M. and Abbruzzese, J.L. (2008) Association between Hepatitis B Virus ans Pancreatic Cancer. Journal of Clinical Oncology, 26, 4557-4562. http://dx.doi.org/10.1200/JCO.2008.17.3526
[11] Xu, B., Zheng, W.Y., Jin, D.Y., Wang, D.S., Liu, X.Y. and Qin, X.Y. (2012) Treatment of Pancreatic Cancer Using an Oncolytic Virus Harboring the Lipocalin 2-Gene. Cancer, 118, 5217-5226.
[12] Abbruzzese, J.L., Hruban, R.H., Yeo, C.J. and Campbell, E.R. (2007) Understanding Pancreatic Cancer, A Guide for Patient and Caregivers. The Lustgarten Foundation, New York. www.lustgarten.org
[13] Payne, D. and Kuster, N. (2013) Review and Evaluation of Beneficial Low-Level EMF Effects on Cancer Cells in with Respect to Potential Interaction Mechanisms. BioEM2013, Thessaloniki, 501-503.
[14] Pomonarev, O.A. and Fesenko, E.E. (2000) The Properties of Liquid Water in Electric and Magnetic Fields. Biofizika, 45, 389-398.
[15] Karimov, A.R. and Shcheglov, V.A. (2000) Role of Weak Energy Fluxes in the Formation of Coherent Structures in Macromolecular Media. Journal of Russian Laser Research, 21, 515-560.
[16] Fesenko, E.E., Popov, V.I., Novikov, V.V. and Khutsyan, S.S. (2002) Structure Formation in Water by the Action of Weak Magnetic Fields and Xenon, Electron Microscopy Analysis. Biophysika, 47, 398-394. (in Russian).
[17] Chen, G., Fenimore, P.W., Berendzen, J., Frauenfelder, H. and McMahon, B.H. (2009) The Role of Hydration Shells of Proteins. Los Alamos National Lab, Los Alamos.
http://www.lanl.gov/orgs/adtsc/publications/science_highlights_2009/4chen.pdf
[18] Jung, C.G. (1998) L’esprit et la vie. In: La réalité de l’ame, Structure et dynamique de l’inconscient [Mind and life. In: Reality of Soul, Structure and dynamics of the Unconscious], La Pochothèque, Le livre de poche, Librairie Générale Francaise, Paris, 366-385, Translated in French from: Seelen probleme der Gegenwart, 1931.
[19] Jimenez, H., Zimmerman, J., Brezovitch, I., Chen, D., Kuster, N., Capstick, M., Gong, Y., Barbault, A. and Pasche, B. (2013) In Vivo Tumor Growth Is Blocked by RF AM EMF and Is Associated with Peritumoral Fibrosis and Activation of the DAG/IP3 Pathway. BioEM2013, Thessaloniki, June 10-14, Abstract Collection, 08-1, 614-616.
[20] Lynes, B. (1993) The Cancer Cure That Worked. Marcus Books, San Francisco.
[21] Holland, A.G. (2010) Exposure of Human Pancreatic Cells to PEFT, 7 March. (Short Description in [22], 81-84). http://www.novobiotronics.com/
[22] Dubost, G. and Bellossi, A. (2008) Interprétation des effets in Vivo et in Vitro du rayonnement électromagnétique d’une antenne à plasma confiné [Interpretation of the in-Vivo and in-Vitro Effects of Exposure to a Confined Plasma Antenna Radiation]. Colloque Int. Sur la CEM et les journées scientifiques du CNFRS/URSI, 20-23 mai, Paris.
[23] Bellossi, A., Dubost, G., Bare, J. and Bardasano, J.L. (2010) Was Rife Right? A 32 Year Old Infection Cured in Two Hours by a Plasma Tube Irradiation. 6th International Workshop on Biological Effects of EM Fields, Bodrum, 10-14 October 2010, Abstract Book, 8-9.
[24] Bellossi, A. and Dubost, G. (2012) Thermal and Non Thermal Effects of Electromagnetic Fields on Biosystems. Lulu, Raleigh. http://www.lulu.com/
[25] Dubost, G., Bare, J., Holland, A. and Bellossi, F. (2013) Destructive Effects of Pulsed Electric Fields on Cancer Cells: The Microtubules Mechanical Resonance Clue. BioEM2013, Thessaloniki, June 10-14, Abstract Collection, PB224, 576-579.
[26] Scoon, A. (2001) The End of All Disease, Everyday Practical Electronics. April, Special Supplement, 1-13, Wimborne Publishing Ltd., Wimborne.
[27] Bare, J.E. (2005) Understanding Our Frequencies through Harmonic Associations.
jbare@rifetechnologies.com
[28] Becker, R.O. and Marino, A.A. (1982) Electromagnetism and Life. State University of New York Press, Albany.
[29] http://www.rifeforum.com/
[30] Resonant Light, PERL. info@resonantlight.com
[31] de Santé, H.A. and HAS (2010) Guide ALD30, Cancer du pancreas [ALD30 Guide, Pancreatic Cancer]. (in French) http://www.has-sante.fr/
[32] Lévy, P. (2007) Adénocarcinome du pancréas: Le dosage du Ca 19-9 a-t-il un intérêt? [Pancreatic Adenocarcinoma: Is Test of Tumor Marker Ca 19-9 of Interest?] FMC-HGE, Post’U, Lyon. (in French)
[33] Prioré, A. (1963) Procédé et dispositif de production de rayonnements utilisables notamment pour le traitement des cellules vivantes [Procedure and Assemblage for Production of Radiation Especially Serviceable for the Treatment of Living Cells]. République Fran?aise, Brevet d’invention P.V. N 899 414, French Patent No. 1 342 772, 7 October 1963.
[34] Prioré, A. (1968) Apparatus for Producing Radiations Penetrating Living Cells. US Patent No. 3 368 155.
[35] Perisse, E. (1984) Effets des ondes électromagnétiques et des champs magnétiques sur le cancer et la trypanosomiase expérimentale [Effects of EM Waves and Magnetic Fields on Cancer and Experimental Trypanosomiasis]. Doctoral Thesis, Université de Bordeaux, 2, N 83, 16 March 1984.
[36] Tunney, D. (2012) Protocols and Guidelines. Resonant Light Technology Inc., Courtenay.
http://www.resonantlight.com/
[37] Bardos, C. (2012) Equations aux dérivées Partielles, Eq [Partial Derivative Equations]. Non-Linéaires, Encyclopédia Universalis, Paris. (in French)
[38] Kirson, E.D., Schneiderman, R.S., Dbaly, V., Tovarys, F., Vymazal, J., Izhaki, A., Mordechovich, D., Gurvich, Z., Shmueli, E., Goldsher, D., Wasseman, Y. and Palti, Y. (2009) Chemotherapeutic Treatment Efficacy and Sensitivity Are Increased by Adjuvant Alternating Electric Fields (TT Fields). BMC Medical Physics, 9, 1. http://www.biomedcentral.com/1756-6649/9/1
[39] Kiehn, R.M. (2012) Non-Equilibrium Systems and Irreversible Processes. Vol. 6, The Universal Effectiveness of Topological Thermodynamics, Lulu. http://www.lulu.com/kiehn
[40] Kiehn, R.M. (2013) The Finite Thermodynamic Topology of Photons. Proceedings of SPIE, 8832, V 883214, 1 October 2013. http://dx.doi.org/10.1117/12.2027316
[41] Akhmediev, N. (2004) Dissipative Solitons, Workshop on Mathematical Ideas in Nonlinear Optics: Guided Waves in Inhomogeneous Nonlinear Media. Edinburgh, July 19-23.
[42] Popp, F.A. and Klimek, W. (2007) Photon Sucking as an Essential Principle of Biological Regulation. In: Beloussov, L.V., Voeikov, V.L. and Martynyukeds, V.S., Eds., Biophotonics and Coherent Systems in Biology, Chapter 2, Springer, Berlin, 17-32
[43] Mesquita, M.V., Vasconcellos, A.R. and Luzzi, R. (2004) Considerations on Undistorted-Progressive X-Waves and Davydovsolitons, Fr?hlich-Bose-Einstein Condensation, and Cherenkov-Like Effect in Biosystems. Brazilian Journal of Physics, 34, 489-503.
[44] Dubost, G., Bare, J.E. and Bellossi, F. (2014) Straight Astral Microtubule Mechanical Longitudinal Resonance Disrupt the Mitotic Spindle of Hepatocellular and Breast Adenocarcinoma cell in Vitro. Private Communication of a Paper to Be Published.
[45] Pasche, B. (2013) The Specificity of Modulation Frequencies in the Treatment of Cancer with Amplitude-Modulated Electromagnetic Fields. BioEM2013, Thessaloniki, June 10-14, Abstract Collection, p. 1-3, 4-5.
[46] Penrose, R. and Hameroff, S.R. (1995) What Gaps? Reply to Grush and Churchland. Journal of Consciousness Studies, 2, 99-112
[47] Hameroff, S. and Marcer, P. (1998) Quantum Computation in Brain Microtubules? The Penrose—Hameroff “Orch OR” Model of Consciousness (and Discussion). Philosophical Transactions: Mathematical, Physical and Engineering Sciences, 356, 1869-1896. Quantum Computation: Theory and Experiment (15 August 1998), Published by: The Royal Society.
http://www.jstor.org/stable/55017
[48] Albrecht-Buehler, G. Cell Intelligence. Basic Science Administration. www.basic.northwestern.edu/g-buehler/summary.htm?
[49] Le Chapellier, P. and Matta, B. (2010) Cellular Perception and Active Penetration Depth for Pain Magnetotherapy. PIERS on Line, 6, 287-292.
[50] Pang, X.F. (2001) The Lifetime of the Soliton in the Improved Davydov Model at the Biological Temperature 300 K for Protein Molecules. The European Physical Journal B, 19, 297-316. http://dx.doi.org/10.1007/s100510170339
[51] Kiehn, R.M. (2008) The Photon as a Propagating Topological Singularity in the Lightcone. In: Non-Equilibrium Systems and Irreversible Processes, Adventures in Applied Topology, Vol. 4, Plasmas and Non-Equilibrium Electrodynamics from a Perspective of Continuous Topological Evolution, Lulu. http://www.lulu.com/kiehn
[52] Le Chapellier, P. and Matta, B. (2011) Cellular Perception: When the Cell Model Includes a Sense Order Which Ensues from a Philosophy of Nature, the Signaling and Epigenetics Effects Which Can Result from Exposure to Magnetic Fields Are Described Better. Neurosciences and Medicine, 2, 161-177. http://www.scirp.org/journal/nm/ http://dx.doi.org/10.4236/nm.2011.23023
[53] Jung, C.G. (1998) Idem [18], p. 368.
[54] Jung, C.G. (1998) Idem [18], p. 375.
[55] Jung, C.G. (1998) La formation des symboles. In: L’énergétique psychique, La réalité de l’ame, Structure et dynamique de l’inconscient [Symbol Formation. In: Psychical Energetic, Reality of Soul, Structure and Dynamics of the Unconscious], 333, La Pochothèque, Le livre de poche, Librairie Générale Fran?aise, Paris, Translated in French from: Uber die Energetik der Seele, 1928.
[56] Jung, C.G. (1998) Pattern of behaviour et archétype, in:Réflexionsthéoriquessur la nature de l’inconscient. In: La réalité de l’ame, La réalité de l’ame, Structure et dynamique de l’inconscient [Archetype and Pattern of Behavior. In: Theoretical Reflectionsabout the Unconscious Nature, Reality of Soul, Structure and Dynamics of the Unconscious], 1035, La Pochothèque, Le livre de poche, LibrairieGénéraleFrancaise, Paris, 333, Translated in French from: Der Geist der Psychologie, 1946.
[57] Jung, C.G. (1998) Nominalisme et réalisme. In: Types et Symboles, La réalité de l’ame, Structure et dynamique de l’inconscient [Nominalism ans Realism. In: Types ans Symbols, Reality of Soul, Structure and Dynamics of the Unconscious], 252, La Pochothèque, Le livre de poche, Librairie Générale Fran?aise, Paris, Translated in French from: Psychological Types, 1921.
[58] Le Chapellier, P. and Matta, B. (2012) Cellular Psychology Assumption: Based upon Exterior Algebra, It Contributes to Explaining the Variability of the Bioeffects of Magnetic and Electromagnetic Fields. Neurosciences and Medicine, 3, 251-269. http://dx.doi.org/10.4236/nm.2012.33029
http://www.scirp.org/journal/nm
[59] Pang, X.F. (2006) The Conductivity Properties of Protons in Ice and Mechanism of Magnetization of Liquid Water, The European Physical Journal B, 49, 5-23. http://dx.doi.org/10.1140/epjb/e2006-00020-6
[60] Binhi, V.N. and Rubin, A.B. (2007) Magnetobiology: The kT Paradox and Possible Solutions. Electromagnetic Biology and Medicine, 26, 45-62. (Copyright: Informa Healthcare)
http://dx.doi.org/10.1080/15368370701205677
[61] Le Chapellier, P. and Matta, B. (2013) Hypotheses on Cellular Perceptive Psychology. International Journal of Advance in Medical Sciences (AMS), 1-2, 29-35. http://www.seipub.org/ams/
[62] Whitehead, A.N. (1925) Science and the Modern World. The MacMillan Company, New York.
[63] Merleau-Ponty, M. (1995) La Nature-Notes [Nature-Notes]. Cours au Collège de France, Seuil, Paris. (in French)
[64] Le Chapellier, P. and Matta, B. (2012) Cellular Psychology: Defined on an Exterior Algebra Using Complex Numbers, It Helps to Explain the Variablebioeffects. The Bioelectromagnetics Society, 34th Annual Meeting, Brisbane, 17-22 June 2012, Abstract Collection, 68-70.
[65] McInturff, B. (2007) The Consolidated Annotated Frequency List, CAFL. turf@mindspring.com
[66] Davies, P. (2013) Exposing Cancer’s Deep Evolutionary Roots. Physics of Cancer, Physics World, 26, 37-40.
[67] Smythies, J. (2011) Some Aspects of the Normal Role of Neuromodulators in the Immune System. Neuroscience & Medicine, 2, 275-281. http://www.scirp.org/journal/nm

  
comments powered by Disqus

Copyright © 2017 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.