Extending Electromagnetic Treatment to Infectious Diseases including the Ebola Virus
Author(s)
Edgar E. Escultura
ABSTRACT
A blueprint for research and development for design and development of suitable electromagnetic treatment of genetic diseases (Escultura, Journal of Biomaterials and Nanobiotechnology, 3(2), 2012) known as genetic sterilization is applied to infectious diseases including viruses. It is based on the Grand Unified Theory (Escultura, Nonlinear Analysis, A-Series, 69(3), 2008) and the Unified Theory of Evolution (Escultura, The Journal of the Science of Healing Outcomes, 2015). Since every physical characteristic of living thing is determined by a gene, so is the undesirable symptom of a disease. For virus, its undesirable symptom is determined principally by the wavelength of the natural vibration of its gene as sequence of base materials which is equal to its measure as a segment of a double helix. Radiation with wavelength equal to this measure will resonate with it. Raising its intensity suitably will sterilize the gene, stop its spread and render it harmless to the host; then the disease is treated without harm to normal cells. Another treatment is establishing resonance with radiation of wavelength equal to the measure of the virus (protein strand with the gene) across; raising its intensity suitably will burn the virus without side effect (since it is much smaller than normal cells).
A blueprint for research and development for design and development of suitable electromagnetic treatment of genetic diseases (Escultura, Journal of Biomaterials and Nanobiotechnology, 3(2), 2012) known as genetic sterilization is applied to infectious diseases including viruses. It is based on the Grand Unified Theory (Escultura, Nonlinear Analysis, A-Series, 69(3), 2008) and the Unified Theory of Evolution (Escultura, The Journal of the Science of Healing Outcomes, 2015). Since every physical characteristic of living thing is determined by a gene, so is the undesirable symptom of a disease. For virus, its undesirable symptom is determined principally by the wavelength of the natural vibration of its gene as sequence of base materials which is equal to its measure as a segment of a double helix. Radiation with wavelength equal to this measure will resonate with it. Raising its intensity suitably will sterilize the gene, stop its spread and render it harmless to the host; then the disease is treated without harm to normal cells. Another treatment is establishing resonance with radiation of wavelength equal to the measure of the virus (protein strand with the gene) across; raising its intensity suitably will burn the virus without side effect (since it is much smaller than normal cells).
KEYWORDS
Basic Primum, Genetic Activation and Sterilization, Resonance and Superposition Law, Superstring
Basic Primum, Genetic Activation and Sterilization, Resonance and Superposition Law, Superstring
Cite this paper
Escultura, E. (2015) Extending Electromagnetic Treatment to Infectious Diseases including the Ebola Virus. Journal of Biomaterials and Nanobiotechnology, 6, 100-115. doi: 10.4236/jbnb.2015.62010.
Escultura, E. (2015) Extending Electromagnetic Treatment to Infectious Diseases including the Ebola Virus. Journal of Biomaterials and Nanobiotechnology, 6, 100-115. doi: 10.4236/jbnb.2015.62010.
References
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http://dx.doi.org/10.4236/jbnb.2012.322036 [2] Escultura, E.E. (2008) The Grand Unified Theory. Nonlinear Analysis, A-Series: TMA, 69, 823-831.
http://dx.doi.org/10.1016/j.na.2008.02.043 [3] Escultura, E.E. (2015) The Unified Theory of Evolution. The Journal of the Science of Healing Outcomes, in Press. [4] Escultura, E.E. (2007) The Pillars of the New Physics and Some Updates. Nonlinear Studies, 14, 241-260. [5] Escultura, E.E. (2013) Columbia’s Disastrous Final Flight. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 281-293.
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http://www.scirp.org/journal/Home.aspx?IssueID=1404
http://dx.doi.org/10.4236/ce.2012.31008 [24] Escultura, E.E. (2013) Creative Science Education. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 306-320.
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https://www.novapublishers.com/catalog/product_info.php?products_id=23231 [31] Edgar, G.A. (1990) Measure, Topology and Fractal Geometry. Springer-Verlag, New York.
http://dx.doi.org/10.1007/978-1-4757-4134-6 [32] Haldane, J.B.S. (1939) Engels’ Dialectics of Nature.
http://www.marxists.org/archive/marx/works/1883/don/preface.htm [33] Atsukovsky, V.A. (1990) General Ether-Dynamics; Simulation of the Matter Structures and Fields on the Basis of the Ideas about the Gas-Like Ether. Energoatomizdat, Moscow. [34] Escultura, E.E. Macro Gravity. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 147-161.
http://www.barnesandnoble.com/w/qualitative-mathemmatics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [35] Hellemans, A. (1999) The Mystery of the Migrating Galaxy Clusters. Science, 283, 625-626. [36] (1995) Galactic Collision. Scientific American, 11-14. [37] Gerlovin, I.L. (1990) The Foundations of United Theory of Interactions in a Substance. Energoattomizdat, Leningrad. [38] Nieper, H.A. (1984) Revolution in Technology, Medicine and Society. Management Interessengemeinschaft für Tachyon-Feld-Energie, Oldenburg, FRG. [39] Escultura, E.E. (2009) Qualitative Model of the Atom, Its Components and Origin in the Early Universe. Nonlinear Analysis, B-Series: Real World Applications, 11, 29-38. http://dx.doi.org/10.1016/j.nonrwa.2008.10.035 [40] Garisto, R. and Agarwal, A. (2012) The Import of the Higgs Boson. Scientific American, 307, 20-21.
http://dx.doi.org/10.1038/scientificamerican0912-20a [41] Escultura, E.E. (2011) Quantum Gravity. In: Escultura, E.E., Ed., Scientific Natural Philosophy, Bentham Science Publishers, Sharjah, 61-80.
http://www.benthamscience.com/eBooks/9781608051786/index.htm [42] Escultura, E.E. (2009) The New Real Number System and Discrete Computation and Calculus. Neural, Parallel and Scientific Computations, 17, 59-84. [43] Escultura, E.E. (2013) Critique-Rectification of Mathematics. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 77-129.
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[1] Escultura, E.E. (2012) Electromagnetic Treatment of Genetic Diseases. Journal of Biomaterials and Nanobiotechno- logy, 3, 292-300.
http://dx.doi.org/10.4236/jbnb.2012.322036 [2] Escultura, E.E. (2008) The Grand Unified Theory. Nonlinear Analysis, A-Series: TMA, 69, 823-831.
http://dx.doi.org/10.1016/j.na.2008.02.043 [3] Escultura, E.E. (2015) The Unified Theory of Evolution. The Journal of the Science of Healing Outcomes, in Press. [4] Escultura, E.E. (2007) The Pillars of the New Physics and Some Updates. Nonlinear Studies, 14, 241-260. [5] Escultura, E.E. (2013) Columbia’s Disastrous Final Flight. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 281-293.
http://www.barnesandnoble.com/w/qualitative-mathematics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [6] Escultura, E.E. (2011) Genetic Alteration, Modification and Sterilization with Applications to Treatment of Genetic Diseases. The Journal of the Science of Healing Outcomes, 7, 2015. [7] Escultura, E.E. (1970) The Trajectories, Reachable Set, Minimal Levels and Chains of Trajectories of a Control System. Ph.D. Thesis, University of Wisconsin. [8] (2014) The Leap from Traditional to the New Science. Nonlinear Studies, 21, 283-291.
http://nonlinearstudies.com/index.php/nonlinear/article/view/1001 [9] Escultura, E.E. (1997) The Solution of the Gravitational n-Body Problem. Journal of Nonlinear Analysis, A-Series: Theory, Methods and Applications, 30, 5021-5032.
http://dx.doi.org/10.1016/S0362-546X(96)00133-2 [10] Escultura, E.E. (2013) The Logic and Fundamental Concepts of the Grand Unified Theory. Journal of Modern Physics, 4, 213-222.
http://dx.doi.org/10.4236/jmp.2013.48A021 [11] Escultura, E.E. (1998) Exact Solutions of Fermat’s Equation (A Definitive Resolution of Fermat’s Last Theorem). Journal of Nonlinear Studies, 5, 227-254. [12] Escultura, E.E. (2009) The Mathematics of the Grand Unified Theory. Nonlinear Analysis, A-Series: TMA, 71, e420- e431. [13] Escultura, E.E. (2010) The Origin and Evolution of Biological Species. The Journal of the Science of Healing Outcomes, 17-27. [14] Escultura, E.E. (2013) The Theory of Intelligence. In: Escultura, E.E., Ed., Qualitative Mathematics and Modeling: Theoretical and Practical Applications, (QMAM: TPA), LAP LAMBERT Academic Publishing, Saarbrücken, 187-212.
http://www.barnesandnoble.com/w/qualitative-mathem-ma-tics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [15] Escultura, E.E. (2012) The Physics of Intelligence. Journal of Education and Learning, 1, 51-64.
http://www.scirp.org/Journal/Home.aspx?IssueID=1673
http://dx.doi.org/10.5539/jel.v1n2p51 [16] Escultura, E.E. (2014) The Physics of Physics of the Mind. The Journal of the Science of Healing Outcomes, 6, 6-15. [17] Escultura, E.E. (2013) GUT Technology. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 294-335.
http://www.barnesandnoble.com/w/qualitative-mathemmatics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [18] Escultura, E.E. (2013) Practical Applications of the Grand Unified Theory. Asian Online Journal.
www.asianonlinejournals.com [19] Escultura, E.E. (2014) Is Human Activity Linked to Climate Change? Atmospheric and Climate Sciences, 4, 305-316.
http://file.scirp.org/Html/15-4700251_45173.htm
http://www.scirp.org/journal/acs [20] Escultura, E.E. (2013) Problems of Modelling in Geology and Oceanography. Problems of Nonlinear Analysis in Engineering Systems (IFNA-Russian Academy of Sciences), 19, 164-178.
http://kpfu.ru/portal/docs/F2118903903/Zurnal40.pdf [21] Escultura, E.E. (2001) Turbulence: Theory, Verification and Applications. Journal of Nonlinear Analysis, A-Series: TMA, 47, 5955-5966. [22] Escultura, E.E. (2013) Chaos, Turbulence and Fractal: Theory and Applications. International Journal of Modern Nonlinear Theory, 2, 176-185. www.scirp.org/journal/ijmnta
http://dx.doi.org/10.4236/ijmnta.2013.23025 [23] Escultura, E.E. (2012) Creative Mathematics Education. Creative Education, 3, 45-54.
http://www.scirp.org/journal/Home.aspx?IssueID=1404
http://dx.doi.org/10.4236/ce.2012.31008 [24] Escultura, E.E. (2013) Creative Science Education. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 306-320.
http://www.barnesandnoble.com/w/qualitative-mathem-matics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [25] Escultura, E.E. (2013) Strategic Positioning towards Sustainable Development of the Third World. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 322-337.
http://www.barnesandnoble.com/w/qualitative-mathem-matics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [26] Sarma, V.S.R.S. and Escultura, E.E. (2010) Proceedings of International Conference on Sustainable Development, Excel India Publishers, Chennai, 1-6 February 2010, 241-243. [27] Astronomy, August 1995. [28] Watson, A. (1998) Glow Reveals Early Star Nurseries. Science, 17, 332-333. [29] Glanz, J. (1998) Starbirth, Gamma Blast Hint at Active Early Universe. Science, 282, 1806. [30] Escultura, E.E. (2011) Extended Geometrical and Generalized Fractals, Chaos and Applications. In: Brennan, K.J., Ed., Handbook on the Classification and Application of Fractals, Nova Publishers, Hauppauge, 1-39.
https://www.novapublishers.com/catalog/product_info.php?products_id=23231 [31] Edgar, G.A. (1990) Measure, Topology and Fractal Geometry. Springer-Verlag, New York.
http://dx.doi.org/10.1007/978-1-4757-4134-6 [32] Haldane, J.B.S. (1939) Engels’ Dialectics of Nature.
http://www.marxists.org/archive/marx/works/1883/don/preface.htm [33] Atsukovsky, V.A. (1990) General Ether-Dynamics; Simulation of the Matter Structures and Fields on the Basis of the Ideas about the Gas-Like Ether. Energoatomizdat, Moscow. [34] Escultura, E.E. Macro Gravity. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 147-161.
http://www.barnesandnoble.com/w/qualitative-mathemmatics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [35] Hellemans, A. (1999) The Mystery of the Migrating Galaxy Clusters. Science, 283, 625-626. [36] (1995) Galactic Collision. Scientific American, 11-14. [37] Gerlovin, I.L. (1990) The Foundations of United Theory of Interactions in a Substance. Energoattomizdat, Leningrad. [38] Nieper, H.A. (1984) Revolution in Technology, Medicine and Society. Management Interessengemeinschaft für Tachyon-Feld-Energie, Oldenburg, FRG. [39] Escultura, E.E. (2009) Qualitative Model of the Atom, Its Components and Origin in the Early Universe. Nonlinear Analysis, B-Series: Real World Applications, 11, 29-38. http://dx.doi.org/10.1016/j.nonrwa.2008.10.035 [40] Garisto, R. and Agarwal, A. (2012) The Import of the Higgs Boson. Scientific American, 307, 20-21.
http://dx.doi.org/10.1038/scientificamerican0912-20a [41] Escultura, E.E. (2011) Quantum Gravity. In: Escultura, E.E., Ed., Scientific Natural Philosophy, Bentham Science Publishers, Sharjah, 61-80.
http://www.benthamscience.com/eBooks/9781608051786/index.htm [42] Escultura, E.E. (2009) The New Real Number System and Discrete Computation and Calculus. Neural, Parallel and Scientific Computations, 17, 59-84. [43] Escultura, E.E. (2013) Critique-Rectification of Mathematics. In: Escultura, E.E., Ed., QMAM: TPA, LAP LAMBERT Academic Publishing, Saarbrücken, 77-129.
http://www.barnesandnoble.com/w/qualitative-mathemmatics-and-modeling-escultura-edgar/1117374460?ean=9783659305849 [44] Discover, December, 1999. [45] Darwin, C. and Quammen, D. (2011) The Origin of Species. Sterling, London. [46] Mendelian Genetics. www.ndsu.edu/pubweb/~mcclean/plsc431/mendel/mendel1.htm [47] Krylov, V.B. and Shehegelov, B.F. (1999) Mathematical Methods in the Physiology of Sensory Systems. Book of Abstracts, Proceedings of the Second International Conference on Tools for Mathematical Modeling, St. Petersburg, 14-19 June 1999, 14-19. [48] Osipenko, G.S., Pokrovsky, A.N., Krylov, B.V. and Plakhova, V.B. (2000) Mathematical Modeling of Pain Sensation. Proceedings of the Second International Conference on Mathematical Modeling, St. Petersburg.