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BIOLOGICAL RESONANCE – RESONANCE IN BIOLOGY
- 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
References:
1. L. Thomas: The Youngest Science, Oxford University Press, Oxford, Melbourne, 1985, 276 p.
2. H. Selye: The Stress of Life, McGraw-Hill Book Company, New York, Toronto, London, 1956.
3. R. A. Ford, Tesla Coil Secrets, Lindsay Publ., Inc: Bradley, Il, 1985, 74 p.
4. G. Lakhovsky: The Secret of Life: Electricity, Radiation and Your Body, Noontide Press, Costa Mesa, 1992, 214 p.
5. D. Boadella: Wilhelm Reich, Fischer Taschenbuch Verlag, Frankfurt am Main, 1983, 366 p.
6. R. Gebauer, S. Müschenich: Der Reichsche Orgonakkumulator, Nexus Verlag, Frankfurt, 1987. (in German)
7. W. Reich: The Cancer Biopathy, Orgone Institute Press, New York, 1948.
8. W. Mann, E. Hoffman: Wilhelm Reich: The man who dreamed of tomorrow, J. Tarcher, Inc., Los Angeles, 1990, 295 p.
9. A. Gurvich: Selected Works, Meditsina, Moscow, 1977.
1. L. Wolpert: J. Theor. Biol., 1969, vol. 25, 1-47.
11. R. O. Becker, G. Selden: The Body Electric, Morrow, New York, 1985.
12. R. Choy, J. A. Monro, C. W. Smith: Electrical sensitivities in Allergy Patients, Clinical Ecology, 1987, vol. 4, n. 3, p. 93-102.
13. Smith C. W., Best S. (1990): Electromagnetic Man, Edited by J. M. Dent & Sons, Ltd. London, p.26.
14. F.-A.Popp: Neue Horizonte in der Medizin, Haug, Heidelberg, 1983.
15. W. J. Rea, Y. Pan, E. J. Fenyves, I. Sujisawa, H. Suyama, N. Samadi, G. H. Ross: Electromagnetic field sensitivity, J. Bioelectricity, 1991, vol. 10, No. 1-2, p. 241-256.
16. M. Blank (1993): Biological effects of electromagnetic fields, Bioelectrochemistry and Bioenergetics, v. 32, p. 203-210.
17. J. Aschoff: Comparative Physiology: Diurnal rhythms, Ann. Rev. Physiol., 1963, vol. 25, p. 581.
18. U. Warnke: Influence of Light on Cellular Respiration, In: Electromagnetic Bio-Information (F.-A.Popp et al. ed.), Urban & Schwarzenberg, Munchen, 1989, p. 213-220.
19. Recent Advances in Biophoton Research and its Applications, (F.-A. Popp, K. H. Li and Q. Gu eds.), World Scientific, Singapore, 1992, 504 p.
20. W. Kroy: The Use of Optical Radiation for Stimulation Therapy, In: Electromagnetic Bio-Information (F.-A. Popp et al. ed.), Urban & Schwarzenberg, Munchen, 1989, p. 200-212.
21. R. Weaver: The effect of electric fields on circadian rhythms in men. Life Sci. Space Res., 1970, vol. 8, p. 177.
22. W. Schumann: Uber die strahlunglosen Eigenschwingungen einer leitenden Kugel, die von einer Luftschicht und einer Ionosphärenhülle umgeben ist, Zeitcshrift für Naturforschung, 1954, b.&a, s.149-154. (in German)
23. R. Hölzel, I. Lamprecht: Electromagnetic fields around biological cells, Neural Network World, 1984, vol. 3, p. 327-337.
24. N. A. R. Gow: Transhyphal electrical currents in fingi, J. Gen. Microbiology, 1984, vol.130, p.3313-3318.
25. N. A. R. Gow, D. I. Kropf, F. M. Harold: Growing hyphae of Achlya bisexualis generate a longitudinal pH gradient in the surrounding medium, J. Gen. Microbiology, 1984, vol. 130, p. 2967-2974.
26. H. A. Pohl: Natural electrical RF oscillation from cells, J. Bioenerg. Biomembr., 1981, vol. 13, p.149-169.
27. S. Rowlands: J. Biol. Phys., 1982, vol. 10, p. 199.
28. K. Toko, K. Hayashi, Yamafuji K.: Spatio-temporal organization of electricity in biological growth, Trans. IECE Japan, 1986, vol. e. 69, p. 485-487.
29. S. J. Webb: Phys. Rep., 1980, vol. 60, p. 201.
30. H. Pohl: Dielectrophoresis: The Behavior of Matter in Non-uniform Electric Fields, Cambridge University Press, 1978.
31. H. A. Pohl: Natural oscillating fields of cells, In: Coherent excitations in Biological Systems. (H.Frölich, F. Kremer, eds.), Springer Verlag, Berlin, 1983, 199-210.
32. H. A. Pohl: Natural ac electric fields in and about cells, Phenomena, v. 5, 1983, p. 87-103.
33. Dan Bracken T. (1992): Experimental Macroscopic Dosimetry for Extremely-Low-Frequency Electric and Magnetic Fields, Bioelectromagnetics Supplement, v. 1, p. 15-26.
34. Mullins R. D., Sisken J. E., Hejase H. A. N., Sisken B. F. (1993): Design and Characterization of a System for Exposure of Cultured Cells to Extremely Low Frequency Electric and Magnetic Fields over a Wide Range of Field Strengths. Bioelectromagnetics, v. 14, p. 173 - 186.
35. Yamaguchi H., Hosokawa K., Soda A., Mizamoto H., Kinouchi Y. (1993): Effects of seven months exposure to a static 0.2 T magnetic field on growth and glycolytic activity of human gingival fibroblasts, Biochem. Biophys. Acta, v. 1156, p. 302-306.
36. Azadniv M., Miller M. W., Cox C., Valentine F. (1993): On the mechanism of a 60-Hz electric field induced growth reduction of mammalian cells in vitro, Rad. Environ. Biophys, v. 32, p.73-83.
37. Goodman R., Henderson A. S. (1988): Exposure of salivary gland cells to low frequency electromagnetic fields alters polypeptide synthesis, Proc.Natl.Acad.Sci., USA, v. 85, p. 3928-3932.
38. Blank M., Soo L. (1992): Threshold for Inhibition of Na, K-ATPase by ELF Alternating Currents. Bioelectromagnetics, v. 13, p. 329-333.
39. Blank M., Soo L. (1993): The Na, K-ATPase as a model for electromagnetic field effects on cells. Bioelectrochem. and Bioenergetics, v. 30, p. 85-92.
40. M. Blank, L. Soo, H. Lin, A. S. Henderson, R. Goodman (1992): Changes in transcription in HL-60 cells following exposure to alternating currents from electric fields. Bioelectrochemistry and Bioenergetics, v. 28, p. 301-309.
41. M. Blank, O. Khorkova, R. Goodman (1994): Changes in polypeptide disribution stimulated by different levels of electromagnetic and thermal stress, Bioelectrochemistry and Bioenergetics, v. 33, p. 109-114.
42. Serpersu E. H., Tsong T. Y. (1984): Activation of electrogenic Rb+ transport of Na,K-ATPase by an electric field. J.Biol.Chem., v. 259, p. 7155-7162.
43. Mevissen M., Stamm A., Buntenkötter S., Zwingelberg R., Wahnschaffe U., Löscher W. (1993): Effects of Magnetic Fields on Mammary Tumor Development Induced by 7,12-Dimethylbenz(a)anthracene in Rats. Bioelectromagnetics, v. 14, p. 131-143.
44. Abstract Book of the 17th Annual Meeting of BEMS, Boston, MA, June 18-22, 1995, The Bioelectromagnetics Society, Frederick, MD, 1995.
45. W. R. Adey: Frequency and Power Windowing in Tissue Interactions with Weak Electromagnetic Fields. Proceedings of the IEEE, 1980, vol. 63, no. 1, p. 119-125.
46. S. Lin-Liu, W. R. Adey: Low frequency Amplitude Modulated Microwave Fields Change Calcium Efflux Rates From Synaptosomes, Bioelectromagnetics, 1982, vol. 3, p. 309-322.
47. S. M. Bawin, A. R. Sheppard, M. D. Mahoney, W. R. Adey: Influences of Sinusoidal Electric Fields on Excitability in the Rat Hippocampal Slice, Brain Research, 1984, vol. 323, p. 227-237.
48. W. R. Adey: “Tissue interactions with nonionizing electromagnetic fields”, Physiol. Rev., 1981, vol. 61, p: 435.
49. A. F. Lawrence, W. R. Adey: Nonlinear Wave Mechanisms in Interactions between Excitable Tissue and Electromagnetic Fields, Neurological Research, v. 4, n. 1/2, 1982, p. 115-153.
50. M. Blank (1992): Na, K-ATPase function in alternating electric fields, FASEB Journal, v. 6, p.2434-2438.
51. Biological Effects and Dosimetry of Static and ELF Electromagnetic Fields, (M. Grandolfo, S. M. Michaelson and A. Rindi, eds), Plenum Press, New York, London, 1985.
52. R. Goodman, M. Blank, H. Lin, R. Dai, O. Khorkova, L. Soo, D. Weisbrot, A. Henderson (1994): Increased levels of hsp70 transcripts induced when cells are exposed to low frequency electromagnetic fields. Bioelectrochemistry and Bioenergetics, v. 33, p. 115-120.
53. M. Blank (1992): Na, K-ATPase function in alternating electric fields. FASEB Journal, v. 6, p.2434-2438.
54. E. M. Goodman, B. Greenebaum, M. T. Marron (1993): Altered protein synthesis in a cell-free system exposed to a sinusoidal magnetic field, Biochim.Biophys, Acta, v. 1202, p. 107-112.
55. T. T. Harkins, C. B. Grissom (1994): Magnetic Field Effects on B12 Ethanolamine Ammonia Lyase: Evidence for a Radical Mechanism. Science, v. 263, p. 958 - 960.
56. S. G. Boxer, C. E. D. Chidsey, M. G. Roelofs (1982): Use of large magnetic field to probe photoinduced electron transfer reaction: an example from photosynthetic reaction center. J. Amer. Chem. Soc., v. 104, No. 5, p. 1452-1454.
57. A. J. Clark: Mode of Action of Drugs on Cells, Arnold, London, 1933.
58. A. Pischinger: Matrix and Matrix Regulation, Haug, Brussels, 1991.
59. F. Perger: Kompendium der Regulationspathologie und -Therapie, Sonntag, München, 1990. (in German)
60. Normal Matrix and Pathological Conditions, (H. Heine, P. Anastasiadis eds), Gustav Fischer, Stuttgart, Jena, New York, 1992.
61. E. Green, A. Green: Beyond Biofeedback, Knoll, Ft. Wayne, IN, 1989.
62. Popp F.-A. (1989): Coherent photon storage in biological systems, Electromagnetic Bioinformation, Edited by Fritz-Albert Popp, München-Wien-Baltimore, p. 144-167.
63. Ludwig H. W. (1988), Die Debatte um die Magnetfeldtherapie aus der Sicht der Biophysik. Erfahrungsheilkunde, Acta medica empirica, v. 12, p. 735- 739.(in German)
64. Schumacher P. (1994): Biophysikalische Therapie der Allergien, Sonntag Verlag, Stuttgart, 300 p. (in German)
65. Bioresonance and Multiresonance Therapy (BRT), H. Brügemann ed., Brussels, Haug International, 1993, 277 p.
66. 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).
67. Acta Medica Empirica (Special issue for BRT), 1994, 3/1.
68. H. Lehmann: Elfolgreiche Behandlung primärer Dysmenorrhoe - fast ohne Therapieversager. Der Freie Arzt, 1993, No. 4. (in German)
69. G. Lednyiczky, Cs. Miklós: Bioresonancia Terapia (Bioenergetics, Piliscsaba 1998)
70. M. Hope. Time: The Ultimate Energy. Element Books Ltd., Longmead, Shaftesbury, Dorset, 1991, 200 p.
1. L. Thomas: The Youngest Science, Oxford University Press, Oxford, Melbourne, 1985, 276 p.
2. H. Selye: The Stress of Life, McGraw-Hill Book Company, New York, Toronto, London, 1956.
3. R. A. Ford, Tesla Coil Secrets, Lindsay Publ., Inc: Bradley, Il, 1985, 74 p.
4. G. Lakhovsky: The Secret of Life: Electricity, Radiation and Your Body, Noontide Press, Costa Mesa, 1992, 214 p.
5. D. Boadella: Wilhelm Reich, Fischer Taschenbuch Verlag, Frankfurt am Main, 1983, 366 p.
6. R. Gebauer, S. Müschenich: Der Reichsche Orgonakkumulator, Nexus Verlag, Frankfurt, 1987. (in German)
7. W. Reich: The Cancer Biopathy, Orgone Institute Press, New York, 1948.
8. W. Mann, E. Hoffman: Wilhelm Reich: The man who dreamed of tomorrow, J. Tarcher, Inc., Los Angeles, 1990, 295 p.
9. A. Gurvich: Selected Works, Meditsina, Moscow, 1977.
1. L. Wolpert: J. Theor. Biol., 1969, vol. 25, 1-47.
11. R. O. Becker, G. Selden: The Body Electric, Morrow, New York, 1985.
12. R. Choy, J. A. Monro, C. W. Smith: Electrical sensitivities in Allergy Patients, Clinical Ecology, 1987, vol. 4, n. 3, p. 93-102.
13. Smith C. W., Best S. (1990): Electromagnetic Man, Edited by J. M. Dent & Sons, Ltd. London, p.26.
14. F.-A.Popp: Neue Horizonte in der Medizin, Haug, Heidelberg, 1983.
15. W. J. Rea, Y. Pan, E. J. Fenyves, I. Sujisawa, H. Suyama, N. Samadi, G. H. Ross: Electromagnetic field sensitivity, J. Bioelectricity, 1991, vol. 10, No. 1-2, p. 241-256.
16. M. Blank (1993): Biological effects of electromagnetic fields, Bioelectrochemistry and Bioenergetics, v. 32, p. 203-210.
17. J. Aschoff: Comparative Physiology: Diurnal rhythms, Ann. Rev. Physiol., 1963, vol. 25, p. 581.
18. U. Warnke: Influence of Light on Cellular Respiration, In: Electromagnetic Bio-Information (F.-A.Popp et al. ed.), Urban & Schwarzenberg, Munchen, 1989, p. 213-220.
19. Recent Advances in Biophoton Research and its Applications, (F.-A. Popp, K. H. Li and Q. Gu eds.), World Scientific, Singapore, 1992, 504 p.
20. W. Kroy: The Use of Optical Radiation for Stimulation Therapy, In: Electromagnetic Bio-Information (F.-A. Popp et al. ed.), Urban & Schwarzenberg, Munchen, 1989, p. 200-212.
21. R. Weaver: The effect of electric fields on circadian rhythms in men. Life Sci. Space Res., 1970, vol. 8, p. 177.
22. W. Schumann: Uber die strahlunglosen Eigenschwingungen einer leitenden Kugel, die von einer Luftschicht und einer Ionosphärenhülle umgeben ist, Zeitcshrift für Naturforschung, 1954, b.&a, s.149-154. (in German)
23. R. Hölzel, I. Lamprecht: Electromagnetic fields around biological cells, Neural Network World, 1984, vol. 3, p. 327-337.
24. N. A. R. Gow: Transhyphal electrical currents in fingi, J. Gen. Microbiology, 1984, vol.130, p.3313-3318.
25. N. A. R. Gow, D. I. Kropf, F. M. Harold: Growing hyphae of Achlya bisexualis generate a longitudinal pH gradient in the surrounding medium, J. Gen. Microbiology, 1984, vol. 130, p. 2967-2974.
26. H. A. Pohl: Natural electrical RF oscillation from cells, J. Bioenerg. Biomembr., 1981, vol. 13, p.149-169.
27. S. Rowlands: J. Biol. Phys., 1982, vol. 10, p. 199.
28. K. Toko, K. Hayashi, Yamafuji K.: Spatio-temporal organization of electricity in biological growth, Trans. IECE Japan, 1986, vol. e. 69, p. 485-487.
29. S. J. Webb: Phys. Rep., 1980, vol. 60, p. 201.
30. H. Pohl: Dielectrophoresis: The Behavior of Matter in Non-uniform Electric Fields, Cambridge University Press, 1978.
31. H. A. Pohl: Natural oscillating fields of cells, In: Coherent excitations in Biological Systems. (H.Frölich, F. Kremer, eds.), Springer Verlag, Berlin, 1983, 199-210.
32. H. A. Pohl: Natural ac electric fields in and about cells, Phenomena, v. 5, 1983, p. 87-103.
33. Dan Bracken T. (1992): Experimental Macroscopic Dosimetry for Extremely-Low-Frequency Electric and Magnetic Fields, Bioelectromagnetics Supplement, v. 1, p. 15-26.
34. Mullins R. D., Sisken J. E., Hejase H. A. N., Sisken B. F. (1993): Design and Characterization of a System for Exposure of Cultured Cells to Extremely Low Frequency Electric and Magnetic Fields over a Wide Range of Field Strengths. Bioelectromagnetics, v. 14, p. 173 - 186.
35. Yamaguchi H., Hosokawa K., Soda A., Mizamoto H., Kinouchi Y. (1993): Effects of seven months exposure to a static 0.2 T magnetic field on growth and glycolytic activity of human gingival fibroblasts, Biochem. Biophys. Acta, v. 1156, p. 302-306.
36. Azadniv M., Miller M. W., Cox C., Valentine F. (1993): On the mechanism of a 60-Hz electric field induced growth reduction of mammalian cells in vitro, Rad. Environ. Biophys, v. 32, p.73-83.
37. Goodman R., Henderson A. S. (1988): Exposure of salivary gland cells to low frequency electromagnetic fields alters polypeptide synthesis, Proc.Natl.Acad.Sci., USA, v. 85, p. 3928-3932.
38. Blank M., Soo L. (1992): Threshold for Inhibition of Na, K-ATPase by ELF Alternating Currents. Bioelectromagnetics, v. 13, p. 329-333.
39. Blank M., Soo L. (1993): The Na, K-ATPase as a model for electromagnetic field effects on cells. Bioelectrochem. and Bioenergetics, v. 30, p. 85-92.
40. M. Blank, L. Soo, H. Lin, A. S. Henderson, R. Goodman (1992): Changes in transcription in HL-60 cells following exposure to alternating currents from electric fields. Bioelectrochemistry and Bioenergetics, v. 28, p. 301-309.
41. M. Blank, O. Khorkova, R. Goodman (1994): Changes in polypeptide disribution stimulated by different levels of electromagnetic and thermal stress, Bioelectrochemistry and Bioenergetics, v. 33, p. 109-114.
42. Serpersu E. H., Tsong T. Y. (1984): Activation of electrogenic Rb+ transport of Na,K-ATPase by an electric field. J.Biol.Chem., v. 259, p. 7155-7162.
43. Mevissen M., Stamm A., Buntenkötter S., Zwingelberg R., Wahnschaffe U., Löscher W. (1993): Effects of Magnetic Fields on Mammary Tumor Development Induced by 7,12-Dimethylbenz(a)anthracene in Rats. Bioelectromagnetics, v. 14, p. 131-143.
44. Abstract Book of the 17th Annual Meeting of BEMS, Boston, MA, June 18-22, 1995, The Bioelectromagnetics Society, Frederick, MD, 1995.
45. W. R. Adey: Frequency and Power Windowing in Tissue Interactions with Weak Electromagnetic Fields. Proceedings of the IEEE, 1980, vol. 63, no. 1, p. 119-125.
46. S. Lin-Liu, W. R. Adey: Low frequency Amplitude Modulated Microwave Fields Change Calcium Efflux Rates From Synaptosomes, Bioelectromagnetics, 1982, vol. 3, p. 309-322.
47. S. M. Bawin, A. R. Sheppard, M. D. Mahoney, W. R. Adey: Influences of Sinusoidal Electric Fields on Excitability in the Rat Hippocampal Slice, Brain Research, 1984, vol. 323, p. 227-237.
48. W. R. Adey: “Tissue interactions with nonionizing electromagnetic fields”, Physiol. Rev., 1981, vol. 61, p: 435.
49. A. F. Lawrence, W. R. Adey: Nonlinear Wave Mechanisms in Interactions between Excitable Tissue and Electromagnetic Fields, Neurological Research, v. 4, n. 1/2, 1982, p. 115-153.
50. M. Blank (1992): Na, K-ATPase function in alternating electric fields, FASEB Journal, v. 6, p.2434-2438.
51. Biological Effects and Dosimetry of Static and ELF Electromagnetic Fields, (M. Grandolfo, S. M. Michaelson and A. Rindi, eds), Plenum Press, New York, London, 1985.
52. R. Goodman, M. Blank, H. Lin, R. Dai, O. Khorkova, L. Soo, D. Weisbrot, A. Henderson (1994): Increased levels of hsp70 transcripts induced when cells are exposed to low frequency electromagnetic fields. Bioelectrochemistry and Bioenergetics, v. 33, p. 115-120.
53. M. Blank (1992): Na, K-ATPase function in alternating electric fields. FASEB Journal, v. 6, p.2434-2438.
54. E. M. Goodman, B. Greenebaum, M. T. Marron (1993): Altered protein synthesis in a cell-free system exposed to a sinusoidal magnetic field, Biochim.Biophys, Acta, v. 1202, p. 107-112.
55. T. T. Harkins, C. B. Grissom (1994): Magnetic Field Effects on B12 Ethanolamine Ammonia Lyase: Evidence for a Radical Mechanism. Science, v. 263, p. 958 - 960.
56. S. G. Boxer, C. E. D. Chidsey, M. G. Roelofs (1982): Use of large magnetic field to probe photoinduced electron transfer reaction: an example from photosynthetic reaction center. J. Amer. Chem. Soc., v. 104, No. 5, p. 1452-1454.
57. A. J. Clark: Mode of Action of Drugs on Cells, Arnold, London, 1933.
58. A. Pischinger: Matrix and Matrix Regulation, Haug, Brussels, 1991.
59. F. Perger: Kompendium der Regulationspathologie und -Therapie, Sonntag, München, 1990. (in German)
60. Normal Matrix and Pathological Conditions, (H. Heine, P. Anastasiadis eds), Gustav Fischer, Stuttgart, Jena, New York, 1992.
61. E. Green, A. Green: Beyond Biofeedback, Knoll, Ft. Wayne, IN, 1989.
62. Popp F.-A. (1989): Coherent photon storage in biological systems, Electromagnetic Bioinformation, Edited by Fritz-Albert Popp, München-Wien-Baltimore, p. 144-167.
63. Ludwig H. W. (1988), Die Debatte um die Magnetfeldtherapie aus der Sicht der Biophysik. Erfahrungsheilkunde, Acta medica empirica, v. 12, p. 735- 739.(in German)
64. Schumacher P. (1994): Biophysikalische Therapie der Allergien, Sonntag Verlag, Stuttgart, 300 p. (in German)
65. Bioresonance and Multiresonance Therapy (BRT), H. Brügemann ed., Brussels, Haug International, 1993, 277 p.
66. 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).
67. Acta Medica Empirica (Special issue for BRT), 1994, 3/1.
68. H. Lehmann: Elfolgreiche Behandlung primärer Dysmenorrhoe - fast ohne Therapieversager. Der Freie Arzt, 1993, No. 4. (in German)
69. G. Lednyiczky, Cs. Miklós: Bioresonancia Terapia (Bioenergetics, Piliscsaba 1998)
70. M. Hope. Time: The Ultimate Energy. Element Books Ltd., Longmead, Shaftesbury, Dorset, 1991, 200 p.
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BIOLOGICAL RESONANCE – RESONANCE IN BIOLOGY
