1.) The relationship of homeodynamics and BRT

1.) The relationship of homeodynamics and BRT

Bioregulation

The body exchanges matter, energy and information with its environment. These “ingredients” are provided for the living organism by self-supporting functions, which are collectively called self-regulating processes.

The system of homeodynamics is controlled by electro-magnetic fields. Research has shown that the system of homeodynamics is controlled by actively emitted electro-magnetic waves from the different tissues and cell structures, as well as received from the environment (so called external pacers). The external and internal electro-magnetic interactions of the organism are collectively called electromagnetic bio-communication.

Bio-regulation Technology (BRT): In the age of physics, it has been measured and understood that life depends on the quality of electromagnetic bio-communication. On an average, 100,000 biological activities take place in a human cell per second. BRT is the support for optimal communication conditions, a specific telecommunication technology for optimising intra and intercellular signaling processes. That is why BRT brings a major improvement in adaptation processes and stabilises homeodynamics.

 

Origins of BRT

Soft tissue and bone repair

Bio-regulation technologies and/or therapy originate from the effort to understand the selfrepair capabilities of the organism. Research work before the second world war became classified, but right in a military (VA) hospital in Syracuse upstate New York the orthopaedic surgeon Robert O. Becker initiated a long research project in order to understand the governing forces behind wound healing and bone repair which resulted in the most important clinical data for BRT. Electric properties of tissue involved in repair mechanisms were identified; and in case of loss in tissue repair capabilities, decreased electromagnetic tissue communication functions were found as the cause. For the support of diminished communication processes, first FDA
certified devices were developed in cooperation with Columbia University, NY during the 1970s.

References

1. Becker RO, Bachman CH, Bioelectric effects in tissue, Clinical orthopaedics and related research, 1965 Nov-Dec;43:251-3,  PMID: 5861096
2. Marino A, Becker RO, Piezoelectric effect and growth control in bone, Nature, 1970 Oct 31;228(5270):473-4, PMID: 5482504
3. Becker RO, The basic biological data transmission and control system influenced by electrical forces, Annals of the New York Academy of Sciences, 1974;238:236-41, PMID: 4531264
4. Becker RO, Cone CD, Jaffe LF, Parsegian VA, Pohl HA,Weiss L, Panel discussion: The role of electrical potential at the cellular  level in growth and development, Annals of the New York Academy of Sciences, 1974;238:451-6, PMID: 4531274
5. Baker B, Spadaro J, Marino A, Becker RO, Electrical stimulation of articular cartilage regeneration, Annals of the New York Academy of Sciences, 1974;238:491-9, PMID: 4548334
6. Baker B, Becker RO, Spadaro J, A study of electrochemical enhancement of articular cartilage repair, Clinical Orthopaedics and Related Research, 1974 Jul-Aug;(102):251-67, PMID: 4425033
7. Fuller RG, Marino AA, Becker RO, Photoconductivity in bone and tendon, Biophysical journal, 1976 Jul;16(7):845-6, PMID: 938723, PMCID: PMC1334905
8. Marino AA, Becker RO, Electrical osteogenesis: an analysis, Clinical Orthopaedics and related research, 1977 Mar-Apr;(123):280-2, PMID: 852183
9. Becker RO, Spadaro JA, Marino AA, Clinical experiences with low intensity direct current stimulation of bone growth,Clinical Orthopaedics and related research, 1977 May;(124):75-83, PMID: 304404
10. Becker RO, Induced dedifferentiation: a possible alternative to embryonic stem cell transplants, NeuroRehabilitation.  2002;17(1):23-31, PMID: 12016344

 

Describing the nature of biological communication channels

W. Ross Adey, professor of anatomy and physiology, a medical doctor and researcher of adaptation mechanisms in the US Air Force discovered the importance of extremely weak electromagnetic fields in membrane transport and in intracellular enzyme systems. After 20 years of systematic investigation he was able to describe the main characteristics of such internal singling processes which control metabolic activity on cellular level. Resonance in frequency and intensity are required for inducing changes in metabolic processes, as described in the summarising articles:

  1. Bawin, S. and Ross Adey, W. (1976): “Sensitivity of Calcium Binding in Cerebral Tissues to Weak Environmental Electric Fields Oscillating at Low Frequency,” Proc. Natl. Acad. Sci. USA 73, 1999–2003.
  2. Adey W.R., Bawin S.M. (1977): “Brain interactions with weak electric and magnetic fields”. in Neurosci. Res. Prog. Bull. 15:7,  pp. 121-129.
  3. Adey W. R. (1980): Frequency and Power Windowing in Tissue Interactions with Weak Electromagnetic Fields. in Proceedings  of the IEEE, vol. 63, no. 1, p. 119-125.
  4. Adey W.R. (1989): Cell Membranes, Electromagnetic Fields, and Intercellular Communication. In Brain Dynamics, Volume 2 of the series Springer Series in Brain Dynamics, ISBN 978-3-642-74559-1 – pp. 26-42
  5. Interaction Mechanisms of Low-Level Electromagnetic Fields in Living Systems, Adey W.R. Editor; Oxford University Press  New York, 1992.

Research work in the Academy of Science

Gabor’s research activity in Kiev began in January 1993; his first priority was to show that every single biological unit in the organism receives information from corresponding physiological units and adaptation mainly depends on the quality of information transfer. In this regard his supposition was, that the information content, the patterns of the physiological information flow are even more critical than other aspects of the waves. That is why he insisted, that cell repair functions can be optimised (even in lethally injured cell structures) by making available the full information content of the same tissue system. BRT studies with

a) immune cells of human blood;
b) during the early development of drosophila;
c) with immunosuppressed mice after long term exposure to ionising radiation

all confirmed that homeodynamics of every living cell depend on the availability of information and by the application of a specific technology which supports information transfer, cells can restart normal functioning.

Note

Lednyiczky, G. In vitro und in vivo Versuche, um die Kontrollfunktion niederenergetischer Bio-informationen und anderer  Schwingungen zu demonstrieren’ (in: Niederenergetische Bioinformation, Ed.: P.C. Endler and A. Stacher 1997; Facultas Universitätsverlag, Wien) pp. 115-152

What is E-Smog and why is it bad?

What is E-Smog and why is it bad?

Bioregulation, Devices

E-Smog

 

These days everyone knows about E-Smog. It is maybe the most insidious type of pollution, as it is invisible, you can’t smell it, most of the cases you can’t even feel it, but it is there, everywhere in our modern societies. And it is just as harmful as any other kind of smog is.

 

Electronic Smog, or E-Smog, is the accumulation of electromagnetic fields.

These fields are emitted from all sorts of electric devices, even from the wiring in your bedroom wall.  This invisible ‘smog’ fogs over almost everything. It is thinner in some places but particularly dense around the sources such as cordless phone bases, Wi-Fi routers, mobile phones, and computers to name but a few.

 

E-Smog can have serious effects on our health…

These days asthma, allergies, various cancers, diabetes, multiple sclerosis, chronic fatigue, and other “modern day diseases” are on the rise, and are beginning to be attributed to electromagnetic exposure, by scientists[i].

Electro-sensitive people are able to feel the effects of these fields, experiencing different kind of unpleasant symptoms. But most of us unaware of it, and accept their symptoms of headaches, pins & needles, numbness, fatigue, irritability etc, as perfectly normal parts of life, until the constant exposure to these harmful electromagnetic fields leads to more serious conditions.

[i] A.H. Frey: Electromagnetis field interactions with biological systems (1993) PMID 8440406, doi: 10.1096/fasebj.7.2.8440406.
Dominique Belpomme, Philippe Irigaray: Electrohypersensitivity as a Newly Identified and Characterized Neurologic Pathologic Disorder (2020) PMID 32168876  doi: 10.3390/ijms21061915.

What is the biofield and its significance:

All living system, including the human body, form a very complex electromagnetic field around themselves, known as “biofield”.

This biofield contains unit charges, ions, cells; comp

onents produced by the activities of the central and peripheral nervous systems and the heart – including processes related to adaptation.

Adaptation relies on our body’s ability to sense and interact with the environment, and accordingly alter the properties of its own biofield. These constant changes in the biofield then trigger modifications in different biological processes. This process called adaptation.

It is well known that the environment can modify bodily functions to a large extent, and thus contribute to improving or reducing our well-being and performance. For example, front-sensitive people able to predict an upcoming weather change, because it triggers strong and stressful changes in their neuro-endocrine regulation through changes in the planet’s electromagnetic field. Or a pleasant encounter with an animal can cause so large change in the biofield, that it’s used for therapeutic purposes, such as equine therapy or animal therapy.

 

Biofield and electromagnetic field

As our biofield in nature is a special electromagnetic field (EMF

), the quality of electromagnetic environment we are living is extremely important.

We can’t survive without the Earth natural electromagnetic field, but also can be harmed (both physically and mentally) by certain kind of electromagnetic fields.

Unfortunately, our electronic devices – TV, Wi-Fi, mobile phone, smart devices, microware, transformers etc. fell into the latter category.

What is a LENYO space harmoniser?

The LENYO Space Harmoniser is an electrical wellness device that ensures that the electromagnetic environment around us is in tune with the body’s basic vibrational needs. Everyone knows that we live in a complex electromagnetic environment.
From the Earth’s natural electromagnetic field to our smart devices, almost everything contributes to this field, even the human body[i].

The quality of this complex electromagnetic field is very important for our physical and mental health. During the past century, our environment’s electromagnetic field has changed significantly with the general introduction of technological advances. It is time to use modern technology to restore the optimal vibrational environment of our planet. LENYO Space Harmoniser devices are designed to create that kind of pleasant environment within an 8 meters radius[ii].

References

[i] Five scientific publications:
1.) Zeitgebers of skeletal muscle and implications for metabolic health (Brendan M. Gabriel, Juleen R. Zierath in: The Journal of Physiology; 07 May 2021  https://doi.org/10.1113/JP280884      https://physoc.onlinelibrary.wiley.com/doi/full/10.1113/JP280884;
2.) Aleksandr S. Presman: Electromagnetic Fields and Life (Plenum Press, 1970) https://link.springer.com/content/pdf/bfm%3A978-1-4757-0635-2%2F1.pdf;
3.) William Ross Adey: Biological Effects of Radio Frequency Electromagnetic Radiation (in James C. Lin: Electromagnetic Interaction with Biological Systems; Springer, 1989);
4.) Dallmann R, Viola AU, Tarokh L, Cajochen C & Brown SA (2012). The human circadian metabolome. Proc Natl Acad Sci U S A 109, 2625– 2629.;
5.) Ding G, Gong Y, Eckel-Mahan KL & Sun Z (2018). Central circadian clock regulates energy metabolism. Adv Exp Med Biol 1090, 79– 103.

Three clearly written books by the eminent orthopaedic surgeon, researcher and university professor Professor Becker: 1.) Becker Robert O. Becker, Andrew A. Marino: Electromagnetism and Life (1982); 2.) Robert O. Becker, Gary Selden: The Body Electric (1985); 3.) Robert O. Becker: Cross Currents (1986)

A historical summary of the biological role of electricity: Arthur Firstenberg: The Invisible Rainbow – The History of Electricity and Life (2020)

[ii] The size of the range of the Lenyo Space Harmoniser depends on its interactions with devices and objects in its environment. The range of eight metres is ideally understood without reinforced concrete walls and other modifying effects.

 

How the LENYO Space Harmoniser can help?

Our LENYO Space Harmoniser is designed to interfere both, with these harmful electromagnetic fields and the biofield of those within its 8m range of effectiveness.

It works like a transmitter, handling information between the electronically polluted environment and your biofield. By the end of thousands of biofeedback loops per second, your biofield will be able to filter out the harmful effects of E-Smog.

It means, LENYO Space Harmoniser will not affect the working of your other (smart) devices. Instead, it “teaches” your biofield to deal with their negative effects.

As a result, while using the LENYO Space Harmoniser, even an electro-sensitive person will be able to use electronic devices (or stay next to a transformer), without any ill effects.

3.) Professional devices

3.) Professional devices

About us

Lenyo CellCom (LCC)

The LCC is an endogenous device, because it uses uniquely signals of the organism received by the two input channels. Through a sophisticated filtering and modulation technology the actual content of the Biological Window (BW) will be used for supporting information processing in the body.

More than 650 pre-loaded programs and over 600 (tissue and condition specific) protocols make the application user-friendly. Also custom made protocols can be created or imported from other practitioners.

Sessions are shorter than ninety minutes, sometimes only twenty minutes, and due to the extremely profound impact on the information processing of the targeted biological subunits, typically administered only once or maximum twice weekly. LCC sessions are regularly complemented with other exogenous BRT sessions, in order to support adaptational reactions of the organism initiated with the LCC session.

Lenyo SanoCenter (LSC)

The LSC is the pro system among the exogenous devices due to its variability and complexity.
It can form a network of signal generators and serve up to 64 clients simultaneously or deliver several programs for one sole person.

The word exogenous serves here the differentiation from the endogenous approach in BRT, where the organism delivers the input signals for the session. Here uniquely the signal generator and the antenna/applicator are responsible for the generated field which serves as carrier wave for the internal communication signals of the organism. This field must be fine tuned to the targeted BW in order to give the possibility to the cells to receive all actually present biological signals in the range of the antenna.

Each BW is supported on average only for a few seconds, or maximum for a minute because of the fantastic fast speed of metabolic activity in the human cells. A program typically contains 30-85 sub-programs for the different BWs of the targeted zone; this makes sure that the different metabolic activities of the targeted biological sub-unit are all sufficiently supported in their adaptation processes.

Most of the LSC protocols are prepared for a 4-channel application, where four independent signal generators deliver synergistically the carrier waves during the session. This can be compared to an orchestra, in which the different instruments support each other in the expression of the melody, when playing together following the notes of the symphony. As the human body can be represented like a big orchestra, in which the different organs represent the different instrument groups; the cooperation of the organs and the cells in the organs is equally  important as the cooperation of the different instrumentalists in the symphonic orchestra. That is why a multi-channel BRT application is more efficient than a single channel one; the same way like a solo instrument can show less details of the melody than the whole symphonic orchestra, which makes the sound full-bodied.