The bio-informatics (Bio-field) system

The entire human metabolism is magnetic in nature. In fact, cells are “Waveform receivers”. Cells might be compared to smart radio-driven generators with multi-layered reception and transmission communication systems. Each cell has the ability to receive instructional waveforms just as any radio can receive a local broadcast. The original wave signal comes through “Echo chambers” in the form of (Hormones, neurotransmitters … etc.), with each hormone sends specialized waveform according to its metabolic structure. These signals from the signaling molecules are received by specialized “Antennas” known as “Cell membrane receptors”, which will respond by opening or closing the cellular membrane “Ion channels

Just like a wire is vehicle for transmitting electrical current, biochemical molecules are vehicles that transmit information in the form of “Waves”. You can think of cells are a radio playing a song broadcast from a distant station. The radio (Cell) does not contain the song, nor is it the source of the radiowaves that are being broadcast (By hormones, neurotransmitters, toxins …etc.) to millions of radios from the same radio station. The radio is simply a “Conducting vehicle”, which temporary crystallizes and transforms the radiowaves (Hormone information) into the speaker sounds (Cascade of events) that we can hear. In the same way, biochemicals reacting throughout the body during metabolism are merely vehicles of wave conduction. The same idea is how a one click in the computer screen on an icon (Electrical pulse from a mouse) is transformed into a “Printing action” in an office printer

Body metabolism can be compared also to opening our eyes under water. If we open our eyes under water in a stormy day, we would see brown, muddy water. However, if we open our eyes under water in a clear day, we can see the bottom. The difference is the weather (External environment) not our vision. In the same way, an imbalanced chemistry among the neurotransmitter fluid and/or hormones within the bloodstream will alter the transmissions passing from neuron to neuron. Some chemicals will interfere in the waveform transmissions (e.g., toxins), while others will facilitate them (e.g., nutrition).

In computer science, a “Bit” is a value of information explained by digits. It has a value of (0) or (1), never both. A value of (0) can be regarded as Negative or Off, while a value of (1) can be regarded as Positive or On. When a group of 8 bits comes together, they form a “Byte”. Multiple bytes group together forms different values (Kilo-byte, Mega-byte, Gega-byte …etc). The larger the byte value, the more information it carries

The body’s cells translate radiowaves (from hormones, neurotransmitters, toxins …etc.) into electrical impulses via the ion channels just as a radio crystal translates radiowaves into electronic pulses. Cellular membrane ion channels work like “Bits” they are either opened (Positive, on, 1) or closed (Negative, off, 0). Opening of the ion channels causes influx or efflux of charged ions (e.g., Na, K, Ca …etc.), which will evoke short-lasting electrical current through the membrane; this short current is accompanied by “Pulsed magnetic field” perpendicular to it. This pulsed magnetic field is the “Real signal” that initiates the biochemical cascade of events  

The ion channel is an informational device because it establishes an on-off state in the form of an open or closed gateway. Ion channels have 3 main states: opened, closed, and de-activated (Closed because adjacent channel is opened). As the ionic waveforms from the ion channel interact with bio-waves from other sources, an interference pattern results. This creates a mapping system that conveys information. There are so many cellular channels, the most common ones are:

1. Sodium (Na) channel: lie within cell membranes of the most active cells in the body, including muscle and nerve cells (Activated by the voltage potentials)

2. Potassium (K) channel: exist in almost every cell in the body, and they are involved in regulating the secretion and reception of various types of “Hormones

3. Chloride (Cl) channel: responsible for cell’s “Nutrition” state

4. Calcium (Ca) channel: are found among various specialized cells in brain, organ, and nerve tissues. They are responsible for turning on and off the release of various neurotransmitters and hormones

5. Cation channel: they predominate within sperm cells

6. Rhadopsin channel: are activated open through the reception of “Light

7. Cyclic nucleotide channel: are voltage channels that regulate the entry of ions and nucleotides that drive energy use and “Cellular clock activity

8. Transient receptor potential (TRP) channel: they respond to photoelectric waveforms (Mainly in fruit flies)

Cells normally go through 7000 chemical reactions per second, which is an indication of the complex and continuous process involved in adaptation. This level of complexity is beyond the scope of simple biochemistry. The exchange of biological information is carried out primarily through electromagnetic (EM) and subtle energy information systems. Biochemical reactions are dependent on these energy information systems, which control biochemical processes (Biophysics principle). This means that biophysics is more potent and powerful than biochemical perspectives

We can think of the “Bio-information system” like an operating system for a computer (e.g., Microsoft Windows). It has a “Pre-set” programs and values that determine how the computer programs “Should” function. Of course, defect in the operating system will affect the function of the computer. Since information in a computer operating system are transferred via electrical impulses, the information of the body can be carried out as “Electrical impulses” (e.g., nerve impulses), or “Electromagnetic vibrations” (e.g., hormones

The bio-information system has certain characteristic that includes:

1. Coherence: signals normally emitted between cells, which ensure accurate data transfer at a relatively low level of energy consumption, are coherent. The coherence of these intra-cellular messages permits organisms to be able to maintain order and integrity, even though the intensity from the signals generated by the outer environment is much higher than the internal biological control signals

2. Selectivity: In order for an organism to adapt to the environment, there must be a process through which only some of the overwhelming amount of incoming signals from the environment can be ‘selected’. In bio-communication, signal filtering is achieved through “Biological windows”, known as “Adey-windows”, described by Dr. Ross Adey

Cells respond to “Specific frequencies” to function. Any frequencies above or below this frequency spectrum will NOT excite the cells. An example of frequency resonance is most commonly seen through the human processes of seeing or hearing. The eyes and ears are only able to receive a specific discreet range of frequencies and intensities, while all other signals outside of these limits will not be processed by the eyes and ears due to the lack of resonance  

How to diagnose a problem within the bio-information system?

This can be achieved by the use of non-invasive diagnostic tool such as “Electoacupuncture according to Voll – EAV” machine. The bioelectric device that Dr. Voll developed, surveyed blockages in the bio-information system by measuring the strength of the electromagnetic message running though specific test points

The test points used by EAV are these test points partly coincide with the classical acupuncture points used for over 5000 years in Traditional Chinese Medicine. They serve as a kind of ‘Gate’ through which an organism’s energy communicates with the external world. These points have a dual nature: they are useful for both gathering information, and for delivering treatments to the organs and organ systems that they relate to inside the body

EAV testing is a ‘Resonance test’ which is extremely useful as an aid to the practitioner to help determine the underlying cause of the patient’s illness. Each individual (As well as organ systems within an individual) has a specific limit to the degree to which they can ‘compensate’ for various stresses that the system encounters. If the system is stressed beyond this limit, there is a de-compensation which can lead to illness, and external help is needed to re-establish balance. From a biophysical point of view, anything that brings a decompensated signal back into a compensated state, can be considered as “Medicinal

 

Selected references

1. Adey WR. The sequence and energetics of cell membrane transducing coupling to intracellular enzyme systems. Bioelectrochem Bioenergetics 1986; 15: 447–456

2. Baldwin AL et al. Biofield-based therapies: a systematic review of pathophysiological effects on practitioners during healing. Explore 2014; 10:150-161

3. Warber SL et al. Biofield Energy Healing from the Inside. The Journal of Alternative and Complementary Medicine. 2004; 6: 1107-1113

4. Rubik B. The biofield hypothesis: Its biophysical basis and role in medicine. The Journal of Alternative and Complementary Medicine. 2002; 8: 703-717

5. Movaffaghi Z et al. Biofield therapies: Biophysical basis and biological regulations? Complementary Therapies in Clinical Practice 2009; 15: 35–37