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The Electromagnetic Whole
- By Gabor Lednyiczky
- Published 07/29/2008
- Bioresonance
- Unrated
Gabor Lednyiczky
Gabor Lednyiczky and Olga Zhalko-Tytarenko Hippocampus Research Facilities e-mail: hippocam@hippocampus-brt.com web: http://www.hippocampus-brt.com
View all articles by Gabor Lednyiczky
Reintegration and Restoration of the Whole
When an organism is treated on a more general level of its functional dynamic hierarchy, it is easier to restore the physiological communication pathways within it and thus activate the endogenous healing processes. Alterations in the biophysical parameters, primarily electrophysical, occur at general levels of the organism’s functional hierarchy. Therefore, they are responsible for very subtle intimate mechanisms of the organism’s self-regulation and inter-level communication. Electromagnetic resonance interactions between the endogenous electromagnetic oscillations of organisms occur in living systems; however, an attempt to detect them is a rather complicated problem.12 Nevertheless, a still growing number of therapeutic devices, which use such kinds of interactions, is elaborated on in ref. 18. For example, the more than 15 years of ‘devices for bioresonance treatment’ utilization in various European clinics evidence their efficacy in the treatment of many diseases.19-21 They are designed to use resonance interactions between endogenous electromagnetic oscillations. Every level of an organism’s hierarchy possesses a characteristic spectrum of endogenous electromagnetic oscillations originating from various processes. Intra- and inter-level resonances should occur to maintain wholeness, hence providing correlations between these processes.
Possible mechanisms of the interactions of endogenous and environmental electromagnetic signals have been investigated by Hippocampus Research Facilities for the last four years. In these studies, various sub-cellular and cellular characteristics were measured under bioresonance conditions.23-26 Though the objects of study vary greatly, one of the processes common to all reactions is that the most pronounced alterations occur within a certain frequency range (the windowing effect). And it is interesting to note that, for example, a decrease in tumor growth and number of metastases is observed in sarcoma-bearing mice, treated with EEMF in vivo; whereas EEMF treatment of sarcoma cell cultures in vitro then inoculating the treated cells into mice does not result in any antitumor effect. This suggests that the antitumor effect of bioresonance treatment is due rather to the activation of endogenous antitumor mechanisms in mice than to the direct influencing of tumor cells.27
From this point of view a pathology, which may be born at any level, will perturb all oscillations via wave interactions, irrespective of the origin of such waves. The distorted interference pattern of the endogenous waves of a sick organism is a reflection of its improper biochemical processes. Numerous positive experiences in the application of electromagnetic therapy devices makes it possible to assume that device-induced restoration of the interference pattern will renovate physiological order in a sick organism. The problem is to isolate basic processes (and the frequencies which correspond to their time scales) which are common to all levels of an organism’s hierarchy in certain frequency ranges and can thus open pathways of inter-level signal transduction.
The model which can be suggested here is that of electromagnetically incorporating an organism into its environment. This can be accomplished by any device that can modify the EM state of the body on a general level so that a good balance of adaptability and integrity with the environment can be restored.
Taking the model to it’s next logical step, the Cerebellum Multifunction Medical Instrument (CMMI) was developed in order to diagnose a body by measuring its general-level EM state. First, the degree of balance and adaptability between the body and the environment is determined. That having been established, a physician can then isolate specific pathologies, or imbalances, by measuring the reactions to body constituent substances.
For gaining a larger community of users, easy to use portable devices have been developed both, for professional (L.I.F.E. System, Mobil Cell-Com) and personal use (Lenyo Lux and Lenyo Mobil). Also systematic education as been started by the Hippocampus Institute as well in Europe as in America (for America please, contact hippocampusamerica@yahoo.com).
Science is often criticized for being irrelevant to everyday life. By physically describing the subtle and intimate features of organisms, the link between our collective experiences and science becomes clearer as well as being more intuitively satisfying.
References
1. EMF In the Workplace. U.S. DOE, NIOSH, NIEHS Washington, 1996.
2. Brown F.A. Persistent activity rhythms in the oyster. American Scientist. 178, 510, 1954
3. Weaver R. The effect of electric fields on circadian rhythms in men. Life Sci. Space Res., 1970, vol. 8, p. 177.
4. Evolutionary Processes and Metaphors (Ho M.-W., Fox W. Editors) John Wiley & Sons, Chichester, N.Y., Brisbane, Toronto, Singapore. 1988.
5. Ho, M.-W. The Rainbow and the Worm: The Physics of Organisms. World Scientific, Singapore, New Jersey, London, Hong Kong. 1993.
6. Weil A., Rosen W: From Chocolate to Morphine. Houghton Mifflin Co., Boston, N.Y. 1993.
7. Lakhovsky G. The Secret of Life: Electricity, Radiation and Your Body. Noontide Press, Costa Mesa, 1992 edition, 214 p.
8. Becker R.O., Selden G. The Body Electric. Morrow, New York, 1985.
9. Choy R., Monro J.A., Smith C.W. Electrical sensitivities in Allergy Patients. Clinical Ecology, 1987, vol. 4, n. 3, p. 93-102.
10. Vincent L.-M. Theory of Data Transferal. Principles of a New Approach to the Information Concept. Acta Biotheoretica, 1993, 41, p.139-145.
11. Popp F.-A. Coherent photon storage in biological systems, Electromagnetic Bioinformation, Edited by Fritz-Albert Popp, München-Wien-Baltimore, 1989, p. 144-167.
12. Del Giudice E., Doglia S., Milani M. Order and structures in Living Systems, in: Nonlinear Electrodynamics in Biological Systems (Adey W.-R. and Lawrence A.F. eds.), Plenum Press, New York, London, 1983, p. 477-488.
13. Adey W.-R. Frequency and Power Windowing in Tissue Interactions with Weak Electromagnetic Fields. Proceedings of the IEEE, 1980, vol. 63, no. 1, p. 119-125.
14. Lin-Liu S., Adey W.-R. Low frequency Amplitude Modulated Microwave Fields Change Calcium Efflux Rates From Synaptosomes. Bioelectromagnetics, 1982, vol. 3, p. 309-322.
15. Bawin S.M., Sheppard A.R., Mahoney M.D., Adey W.-R. Influences of Sinusoidal Electric Fields on Excitability in the Rat Hippocampal Slice. Brain Research, 1984, vol. 323, p. 227-237.
16. Adey W.-R. Tissue interactions with nonionizing electromagnetic fields. Physiol. Rev., 1981, vol.61, p:435.
17. Lawrence A.F., Adey W.-R. Nonlinear Wave Mechanisms in Interactions between Excitable Tissue and Electromagnetic Fields. Neurological Research, v. 4, n. 1/2, 1982, p. 115-153.
18. Ludwig H.W. Die Debatte um die Magnetfeldtherapie aus der Sicht der Biophysik. Erfahrungsheilkunde. Acta medica empirica, v. 12, 1988, p. 735- 739.(in German)
19. Schumacher P. Biophysikalische Therapie der Allergien, Sonntag Verlag, Stuttgart, 1994, 300 p. (in German)
20. Bioresonance and Multiresonance Therapy (BRT) (Brügemann H. ed.). Brussels, Haug International, 1993, 277 p.
21. Proceedings of the Annual Meetings of the International Medical Society of BRT and International Therapeutic Society of BRT, RTI Heft I-XVII. (Brügemann Inst. ed.), Lochhamer Schlag 5, 82166, Gräfelfing (Germany).
22. Lehmann H. Elfolgreiche Behandlung primärer Dysmenorrhoe - fast ohne Therapieversager. Der Freie Arzt, 1993, No. 4. (in German)
23. Lednyiczky G. In vitro und in vivo Versuche um die Kontrollfunktion niederenergetischer Bioinformation und anderer Schwingungen zu demonstrieren, in: Niederenergetische Bioinformation (Stacher A. Editor). Facultas-Universitätsverlag, Wien, 1996, (in German).
24. Lednyiczky G., Waiserman A., Sakharov D., Koshel N. Geschädigte Drosophilalarven und Information von nicht Geschädigten Tieren. In: Homöopathie-Bioresonanztherapie (Endler P.C. and Schulte J., eds.). Verlag Maudrich: Wein - München-Bern. 1996, p. 181 (in German).
25. Lednyiczky G., Zhalko-Tytarenko O. The Endogenous Electromagnetic Oscillations in the Consciousness Field Pattern Formation. World Futures, 1997, in press.
26. Zhalko-Tytarenko O., Liventsov V., Lednyiczky G. Endogenous electromagnetic field pattern formation in water. Abstr. Intern. Conf. “Bioelectromagnetics Society 18th Annual Meeting” 9-14 June, Victoria, B.C., Canada, 1996, p. 142.
27. Lednyiczky G., Zhalko-Tytarenko O., Rozhkova Z., Lakiza O., Pyaskovskaya O. The endogenous electromagnetic field influence on the metabolic processes in the tissues of mice with 3LL carcinoma,. Abstr. Intern. Conf. "Bioelectromagnetics Society 18th Annual Meeting" 9-14 June, Victoria, B.C., Canada, 1996, p. 164.
When an organism is treated on a more general level of its functional dynamic hierarchy, it is easier to restore the physiological communication pathways within it and thus activate the endogenous healing processes. Alterations in the biophysical parameters, primarily electrophysical, occur at general levels of the organism’s functional hierarchy. Therefore, they are responsible for very subtle intimate mechanisms of the organism’s self-regulation and inter-level communication. Electromagnetic resonance interactions between the endogenous electromagnetic oscillations of organisms occur in living systems; however, an attempt to detect them is a rather complicated problem.12 Nevertheless, a still growing number of therapeutic devices, which use such kinds of interactions, is elaborated on in ref. 18. For example, the more than 15 years of ‘devices for bioresonance treatment’ utilization in various European clinics evidence their efficacy in the treatment of many diseases.19-21 They are designed to use resonance interactions between endogenous electromagnetic oscillations. Every level of an organism’s hierarchy possesses a characteristic spectrum of endogenous electromagnetic oscillations originating from various processes. Intra- and inter-level resonances should occur to maintain wholeness, hence providing correlations between these processes.
Possible mechanisms of the interactions of endogenous and environmental electromagnetic signals have been investigated by Hippocampus Research Facilities for the last four years. In these studies, various sub-cellular and cellular characteristics were measured under bioresonance conditions.23-26 Though the objects of study vary greatly, one of the processes common to all reactions is that the most pronounced alterations occur within a certain frequency range (the windowing effect). And it is interesting to note that, for example, a decrease in tumor growth and number of metastases is observed in sarcoma-bearing mice, treated with EEMF in vivo; whereas EEMF treatment of sarcoma cell cultures in vitro then inoculating the treated cells into mice does not result in any antitumor effect. This suggests that the antitumor effect of bioresonance treatment is due rather to the activation of endogenous antitumor mechanisms in mice than to the direct influencing of tumor cells.27
From this point of view a pathology, which may be born at any level, will perturb all oscillations via wave interactions, irrespective of the origin of such waves. The distorted interference pattern of the endogenous waves of a sick organism is a reflection of its improper biochemical processes. Numerous positive experiences in the application of electromagnetic therapy devices makes it possible to assume that device-induced restoration of the interference pattern will renovate physiological order in a sick organism. The problem is to isolate basic processes (and the frequencies which correspond to their time scales) which are common to all levels of an organism’s hierarchy in certain frequency ranges and can thus open pathways of inter-level signal transduction.
The model which can be suggested here is that of electromagnetically incorporating an organism into its environment. This can be accomplished by any device that can modify the EM state of the body on a general level so that a good balance of adaptability and integrity with the environment can be restored.
Taking the model to it’s next logical step, the Cerebellum Multifunction Medical Instrument (CMMI) was developed in order to diagnose a body by measuring its general-level EM state. First, the degree of balance and adaptability between the body and the environment is determined. That having been established, a physician can then isolate specific pathologies, or imbalances, by measuring the reactions to body constituent substances.
For gaining a larger community of users, easy to use portable devices have been developed both, for professional (L.I.F.E. System, Mobil Cell-Com) and personal use (Lenyo Lux and Lenyo Mobil). Also systematic education as been started by the Hippocampus Institute as well in Europe as in America (for America please, contact hippocampusamerica@yahoo.com).
Science is often criticized for being irrelevant to everyday life. By physically describing the subtle and intimate features of organisms, the link between our collective experiences and science becomes clearer as well as being more intuitively satisfying.
References
1. EMF In the Workplace. U.S. DOE, NIOSH, NIEHS Washington, 1996.
2. Brown F.A. Persistent activity rhythms in the oyster. American Scientist. 178, 510, 1954
3. Weaver R. The effect of electric fields on circadian rhythms in men. Life Sci. Space Res., 1970, vol. 8, p. 177.
4. Evolutionary Processes and Metaphors (Ho M.-W., Fox W. Editors) John Wiley & Sons, Chichester, N.Y., Brisbane, Toronto, Singapore. 1988.
5. Ho, M.-W. The Rainbow and the Worm: The Physics of Organisms. World Scientific, Singapore, New Jersey, London, Hong Kong. 1993.
6. Weil A., Rosen W: From Chocolate to Morphine. Houghton Mifflin Co., Boston, N.Y. 1993.
7. Lakhovsky G. The Secret of Life: Electricity, Radiation and Your Body. Noontide Press, Costa Mesa, 1992 edition, 214 p.
8. Becker R.O., Selden G. The Body Electric. Morrow, New York, 1985.
9. Choy R., Monro J.A., Smith C.W. Electrical sensitivities in Allergy Patients. Clinical Ecology, 1987, vol. 4, n. 3, p. 93-102.
10. Vincent L.-M. Theory of Data Transferal. Principles of a New Approach to the Information Concept. Acta Biotheoretica, 1993, 41, p.139-145.
11. Popp F.-A. Coherent photon storage in biological systems, Electromagnetic Bioinformation, Edited by Fritz-Albert Popp, München-Wien-Baltimore, 1989, p. 144-167.
12. Del Giudice E., Doglia S., Milani M. Order and structures in Living Systems, in: Nonlinear Electrodynamics in Biological Systems (Adey W.-R. and Lawrence A.F. eds.), Plenum Press, New York, London, 1983, p. 477-488.
13. Adey W.-R. Frequency and Power Windowing in Tissue Interactions with Weak Electromagnetic Fields. Proceedings of the IEEE, 1980, vol. 63, no. 1, p. 119-125.
14. Lin-Liu S., Adey W.-R. Low frequency Amplitude Modulated Microwave Fields Change Calcium Efflux Rates From Synaptosomes. Bioelectromagnetics, 1982, vol. 3, p. 309-322.
15. Bawin S.M., Sheppard A.R., Mahoney M.D., Adey W.-R. Influences of Sinusoidal Electric Fields on Excitability in the Rat Hippocampal Slice. Brain Research, 1984, vol. 323, p. 227-237.
16. Adey W.-R. Tissue interactions with nonionizing electromagnetic fields. Physiol. Rev., 1981, vol.61, p:435.
17. Lawrence A.F., Adey W.-R. Nonlinear Wave Mechanisms in Interactions between Excitable Tissue and Electromagnetic Fields. Neurological Research, v. 4, n. 1/2, 1982, p. 115-153.
18. Ludwig H.W. Die Debatte um die Magnetfeldtherapie aus der Sicht der Biophysik. Erfahrungsheilkunde. Acta medica empirica, v. 12, 1988, p. 735- 739.(in German)
19. Schumacher P. Biophysikalische Therapie der Allergien, Sonntag Verlag, Stuttgart, 1994, 300 p. (in German)
20. Bioresonance and Multiresonance Therapy (BRT) (Brügemann H. ed.). Brussels, Haug International, 1993, 277 p.
21. Proceedings of the Annual Meetings of the International Medical Society of BRT and International Therapeutic Society of BRT, RTI Heft I-XVII. (Brügemann Inst. ed.), Lochhamer Schlag 5, 82166, Gräfelfing (Germany).
22. Lehmann H. Elfolgreiche Behandlung primärer Dysmenorrhoe - fast ohne Therapieversager. Der Freie Arzt, 1993, No. 4. (in German)
23. Lednyiczky G. In vitro und in vivo Versuche um die Kontrollfunktion niederenergetischer Bioinformation und anderer Schwingungen zu demonstrieren, in: Niederenergetische Bioinformation (Stacher A. Editor). Facultas-Universitätsverlag, Wien, 1996, (in German).
24. Lednyiczky G., Waiserman A., Sakharov D., Koshel N. Geschädigte Drosophilalarven und Information von nicht Geschädigten Tieren. In: Homöopathie-Bioresonanztherapie (Endler P.C. and Schulte J., eds.). Verlag Maudrich: Wein - München-Bern. 1996, p. 181 (in German).
25. Lednyiczky G., Zhalko-Tytarenko O. The Endogenous Electromagnetic Oscillations in the Consciousness Field Pattern Formation. World Futures, 1997, in press.
26. Zhalko-Tytarenko O., Liventsov V., Lednyiczky G. Endogenous electromagnetic field pattern formation in water. Abstr. Intern. Conf. “Bioelectromagnetics Society 18th Annual Meeting” 9-14 June, Victoria, B.C., Canada, 1996, p. 142.
27. Lednyiczky G., Zhalko-Tytarenko O., Rozhkova Z., Lakiza O., Pyaskovskaya O. The endogenous electromagnetic field influence on the metabolic processes in the tissues of mice with 3LL carcinoma,. Abstr. Intern. Conf. "Bioelectromagnetics Society 18th Annual Meeting" 9-14 June, Victoria, B.C., Canada, 1996, p. 164.
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This article is part 3 of a 3 part series. Other articles in this series are shown below:
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The Electromagnetic Whole
