Content Table
Introducing the science of Bioresonance
Bioelectromagnetism is a field of study that investigates and understands the interactions between electromagnetic fields and biological systems. This field involves the study of electric or electromagnetic fields produced by cells, tissues, or living organisms, including microorganisms. In humans, these interactions relate to the potential effects of external electromagnetic sources on internal biological, chemical, and electromagnetic processes.
Therefore, bioelectromagnetism is a science that combines the knowledge of biology and medicine with the understanding of electromagnetism derived from mathematics, physics, and engineering.
Short-term electrical events called action potentials occur in different types of animal cells, which are excitable cells. Neurons, muscle cells, endocrine glands and also some plant cells are included in this category of cells. In cells, action potentials are used to facilitate communication and activate various intracellular processes.
Body structure and bioelectromagnetic waves
The functioning of all living organisms is based on energy, so electromagnetic waves can be used for diagnostic and therapeutic purposes. Every cell in the body is a transmitter and receiver of electromagnetic information. The movement of electromagnetic radiation in the body leads to ion transfer, increased blood and lymph flow.
According to James Oshman, the communication systems of living organisms take place through chemical and energy languages. Chemical communication in the body is mainly done through the circulatory system. According to Western medical models, energy communication in the body is almost exclusively done in the nervous system.
Exposure of cells and tissues to electric and electromagnetic fields can lead to various changes in various physiological functions. These changes are due to the interaction between various biological, chemical and electrical (magnetic) fields and processes.
Contrary to popular belief, changes at the cellular and tissue level caused by the application of electric or electromagnetic fields are not necessarily a health risk. In fact, many new therapeutic techniques and clinical methods to treat diseases benefit from the application of appropriate fields.
Cells and electromagnetic field
The development, maintenance and reproduction of a biological system is largely based on intracellular and intercellular communication. This communication allows a single cell to interact with neighboring cellular systems as well as with its environment.
Nowadays, many biological functions of cells are explained by the movement of ions (Ca+2, H+ pumps and cell voltage sensors) and their effect on small signaling molecules. Levin (2007) showed that direct current electric fields generated by ion channels (specifically for H+, K+, and Ca+2) generate specific signals that regulate cell behavior during embryonic development, normal tissue cycling, and regenerative repair. They adjust.
Nature endogenously (via ion channels) uses the generated direct current electric field as a fast information carrier, as these fields adequately fill the information gap between molecules and the effects of distant external factors (such as temperature and radiation). . Bioelectric fields are considered essential for short-range intracellular communication. The frequency of electromagnetic fields in the body is usually in the very low frequency (ELF) range.
These electromagnetic fields include nerve and heart tissue action potentials, skeletal muscle vibrations, and frequencies resulting from the rhythmic activity of other body tissues. All biological systems, from the molecules inside the cell to the cell itself as a single entity and the tissues that make up the organisms’ organs and bodies, are always affected by time-varying magnetic fields.
Treatment with bioresonance
The term “bioresonance therapy” (BRT) was coined in 1987 by Hans Brigman to describe treatment with the patient’s own oscillations. This form of therapy is based on Morel’s theory. This idea can be briefly expressed as follows: All diseases and their pathological conditions are associated with certain electromagnetic fluctuations or are caused by them. All pathological manifestations are associated with pathological fluctuations in or around the body.
In the body of each patient, abnormal electromagnetic oscillations along with healthy oscillations originate from a cell that has a magnetic field. The frequency range of these oscillations varies from very small (Hz) to very large oscillations (MHz).
Abnormal fluctuations in the body disturb the dynamic balance and homeostasis of the body. The body becomes ill when this dynamic balance is lost. In addition, there are very underlying pathological conditions that the patient may not be aware of, which ultimately causes more stress on the body. Conventional diagnostic tests do not consider them at all and do not cover these conditions. The patient’s electromagnetic oscillations literally contain all the information necessary for treatment, even if it has not yet been deciphered. The patient’s fluctuations are electromagnetic in nature. This information is recorded not only from the surface of the skin, but also from inside the tissues and organs and enters the treatment device.
Keith Scott-Mambi is a modified version of Hans Brigman’s bioresonance therapy process (based on the ideas and work of Dr. Franz Morel):
1. There are electromagnetic fluctuations in the human body and around it. These fluctuations precede the ongoing biochemical processes in tissues and are responsible for the actual control mechanism of tissue function.
2. In each person, in addition to physiological fluctuations, there are also pathological interference fluctuations, which are caused by toxins, damage, infection, unresolved disease processes, and negative mental states (so-called emotional toxins).
3. Both natural and pathological oscillations can be received from the surface of the skin (antenna effect) and transferred to the therapeutic device to achieve proper resonance.
4. Mixed oscillations from the patient can be modulated in two main ways: (1) healthy signals are amplified, (2) pathological signals are reversed and thus eliminated. Oscillations are filtered to separate desirable frequencies from pathological frequencies (pathological signals are removed in the process). The separation filter used in the Mora device was proposed and designed by Dr. Ludger Mersmann.
5. There is no need to generate an artificial frequency, only patient oscillations modified according to principle four. The main goal is to amplify good fluctuations and eliminate unwanted fluctuations.
6. The body takes cues from the modulated therapeutic signals and continues to produce enhanced physiological signals, and appears to reprogram itself, so that it is protected against future pathological signals. Therefore, electromagnetic energy synchronization goes beyond the temporary phase of therapy sessions.
7. Beneficial changes in energy fields are followed by subsequent corrections and improvements in biochemical function and physical structure.
8. Bioresonance therapy is successful when the body’s own endogenous regulatory forces reassert control and lead to normalization and maintenance of body health.
How to transmit electromagnetic waves
The nuclear matrix, the cytoplasmic matrix and the extracellular matrix are connected to each other and create a network through which all the molecules of the body are connected. Energy pathways and information circuits are transmitted through the extracellular matrix, the composition and structure of which not only acts as a support element, but also creates precise mechanical, vibrational, energetic, electronic, and chemical transmission circuits. These precise transmission circuits are the key that connect the organs to each other and ensure their proper functioning.
The matrix allows the vibrational energy of mechanochemistry to be transferred directly from the surrounding membrane to the DNA through harmonic wave motion.
One of the basic physical properties of the living matrix is that it is mainly composed of crystalline structures. which makes the living matrix have the general properties found in all kinds of crystals.
References of Bioelectromagnetic fields and bioresonance
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Feyyaz Ozdemir and Aysegul Kargi (2011). Electromagnetic Waves and Human Health, Electromagnetic Waves, Prof. Vitaliy Zhurbenko (Ed.), ISBN: 978-953-307-304-0, InTech, Available from: http://www.intechopen.com/books/electromag
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Rouleau N., Dotta BT. (2014). Electromagnetic fields as structure function zeitgebers in biological systems: environmental orchestrations of morphogenesis and consciousness. Frontiers in Integrative Neuroscience. doi:10.3389/fnint.2014.00084
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Levin M. (2007). Large-scale biophysics: ion flows and regeneration. Trends Cell Biol. 17, 261-270. doi: 10.1016/j.tcb.2007.04.007
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Ahmed |, Istivan T, Cosic |, Pirogova E (2013) Evaluation of the effects of Extremely Low Frequency (ELF) Pulsed Electromagnetic Fields (PEMF) on survival of the bacterium Staphylococcus aureus. EP) Nonlinear Biomed Phys 1:1-17
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Brugemann, H. (2005). The fascinating development of bioresonance therapy: Discoveries, research, ideas and hard work. Regumed Institut fur Regulative Medizine, 82166, RTI volume 29
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Morell, F. (1990). The Mora Concept: Patients’ Own and Coloured Light Oscillations – Theory and Practice.Karl F Haug Verlag GmbH & Co
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DE 2840114 A1: Verfahren zur Untersuchung biologisch wirksamer elektromagnetischer Strahlungen von anorganischen und organischen Substanzen sowie deren komplexe Verbindungen beztiglich ihrer toxischen und nichttoxischen Quantitat und Qualitat ihrer Einwirkungen auf biologische Systeme wie Mineralien, Pflanzen, Tiere und Menschen, sowie sonstige Elemente und deren Verbindungen. Anmelder/Erfinder: Ludger Mersmann. Anmeldedatum: 15.09.1978. Patentanspriche zuruckgewiesen: 14.12.1982. Verfahren erloschen: 01.08.1985
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Karakos, P., & Tripsiannis G., Konstantinidis Th., Lialiaris, Th. (2019). The Effectiveness of Bioresonance Method on Human Health. The Open Epidemiology Journal. 8. 1-8. 10.2174/1874297120190800001
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Gogoleva EF. (2001). New approaches to diagnosis and treatment of fibromyalgia in spinal osteochondrosis. Ter Arkh. 73: 40-45
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Bosman F. T., Stamenkovic |. (2003). Functional structure and composition of the extracellular matrix. J. Pathol. 200, 423-428 [PubMed: 12845610]
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Jarvelainen H., Sainio A., Koulu M., Wight T. N., Penttinen R. (2009). Extracellular matrix molecules: potential targets in pharmacotherapy
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