Practical methods
Contents
Diagnosis
First of all, it is necessary to consider some major issues relevant to diagnosis and treatment of various pathological conditions in human organism.
The program allows to analyze degree of fluctuation from the common «norm» in factors under discussion.
The example below shows the dynamics of different factors normalization in a patient's various systems. Note that «1» means data beyond the norm, «0» stands for the «norm», and «-1» denotes data below the norm.
| Sessions | |||||||
|---|---|---|---|---|---|---|---|
| 1 | 2 | 3 | 4 | 5 | 6 | 7 | |
| Viruses | 0 | 1 | 1 | 1 | 1 | 0 | 0 |
| Bacteria | 1 | 1 | 1 | 1 | 0 | 0 | 0 |
| Mycoses | 1 | 1 | 1 | 0 | 0 | 0 | 0 |
| Hepatobiliary system | 1 | 1 | 1 | 0 | 0 | 0 | 0 |
| Male urogenital system | 1 | 1 | 1 | 0 | 0 | -1 | -1 |
| Musculoskeletal system | 1 | 1 | 1 | 0 | 1 | 0 | 0 |
| Digestive system | 1 | 1 | 1 | 0 | 1 | 0 | 0 |
| Respiratory system | 1 | 1 | 1 | 0 | 0 | -1 | 0 |
| Cardiovascular system | 1 | 1 | 1 | 0 | 1 | 0 | 0 |
| Central nervous system | 1 | 1 | 1 | 1 | 0 | -1 | 0 |
| Endocrine system | 1 | 1 | 1 | 0 | 1 | 1 | 0 |
Bacterial range
The patient gets into «bacterial range» whenever pathogenic bacteria factor exceeds 50% or the average factor goes above «0».
When the person is said to be in bacterial range, we usually deal with inflammation. High temperature indicates that organism struggles to protect itself and tries to increase its energy levels. This will lead to frequencies rising thus returning a person to his or her normal frequency range. As a result, bacteria stop thriving and the person recovers.
Unfortunately, the use of antibiotics changed everything. Bacterial range became narrower while bacteria themselves became a real threat to patients. It took them little time to start mutating and adjusting to treatment. We live in a century when medicine almost works wonders, still the WHO signs a warrant of science. This so-called penicillin era when antibiotics solved any problem, is gone. Fleming's invention that once gave humanity hope now is depriving this world of future. It is bacterium who is almighty now. Nowadays bacterial resistance gets to unbelievable scales. «There are diseases that can't be even cured with the help of antibiotics, and yet we haven't invented any alternatives», noted Antony Co, professor from Durham University. It will cost millions of dollars to study and design new antibiotics unknown to bacteria.
The results of our experiment showed that electromagnetic fields of ultralow power produced by «Brimton» device in the form of auto- and S-marker specters of the similar object influence the growth of microorganisms. Using these field specters in inverse mode stops the growth of microorganisms, which also depends on treatment duration.
It is obvious that the inverse mode of treatment in our experiments caused changes in the object's own field, which means that information component of this object was changed as well.
This concept can be taken as a basis for an alternative to universally accepted antibacterial and antiviral therapy.
Viral range
Similar to the previous example, when the virus factor exceeds 50% or the general factor goes above «0», the patient gets into the «viral range».
Virus (from Latin virus - «poison») is a non-cellular infectious agent capable of reproducing itself only inside a living cell. Ideally every healthy person has a reliable multilevel protection system against such viruses.
In the course of our experiments with viruses we figured out that treating extracellular flu virus with the help of auto spectral electromagnetic signal leads to reduction of flu virus reproduction in CAM (chorioallantoic membrane) tissue culture compared to untreated control sample.
It is obvious that treating the object in inverse mode (reversed phase of its own field) with the help of recorded spectral field characteristics of the object itself causes destruction of the object’s informational field and its DNA/RNA structure. As our research shows, this leads to reproduction mechanism failure.
DNA/RNA as any polar molecule are highly sensitive to frequencies. Each DNA molecule has its own resonance frequency. Eventually, the more primitive the living substance is the lower resonance frequency it has. Each living cell contains DNA molecules, and the same kind of cells have similar DNAs with the same resonance frequency.
Mycotic range
The trickiest pathogens of all are fungi, which cause a wide range of diseases.
Mycoses (from ancient Greek μύκης - «fungus») - is a disease caused by parasitic fungi.
Within the «fungi» frequencies range and lower frequencies the temperature of the body is not increasing, so the organism has no need to seek more energy. When a person suffers from cancer, multiple sclerosis, AIDS or Alzheimer there are no signs of high temperature. Practically all diseases follow this pattern.
Rapid spread of fungi is connected with an extensive use of antibiotics. No wonder, because penicillin itself was produced from molds. Fungi «consume» penicillin, tetracycline, and streptomycin groups antibiotics as willingly as bears eat honey. In addition to this, bacteria killed by antibiotics decay and serve as extra nutrition supply for fungi.
Until quite recently people thought that fungi choose the weakest organisms to invade. But professor Bruno Defile, a specialist in fungus diseases proved in his works that this was wrong. He analyzed 150 blood test results taken from newborn babies in Switzerland, France, and Germany. Professor Defile carried out researches according to his own methodology, and the results showed that each of the 150 newborns had signs of systemic fungus diseases. He said «if we take air for probing in the cemetery to measure the quantity of fungi, we'll find out there're millions of them. They are immortal».
Medical microbiology discovered about 400 kinds of fungi pathogenic for humans. These causative agents are widely-spread in nature, they are contained in soil, plants, animals, insects, rotten food, water, canned products. Fungus contamination symptoms vary greatly and they mostly correspond to those of chronic diseases.
In order to diagnose the disease, it is necessary to find fungi elements in pathological material after microscopic examination, and to get the pure culture in the course of reseeding in breeding solutions. One more important diagnosis test is finding fungi in non-revealed affected areas and examining the biopsy material or tissues removed during operation.
The difficult part in early mycosis diagnosing is connected with impossibility to state when the disease actually started as well as with an ill-time mycological examination. Besides, fungi have their own «protection» mechanism against human immune system. The authors of the article showed that fungus can hide from immune system by actively masking beta-glucan, a fungal cell wall element in most fungi. Beta-glucan is related to the group of pathogen-associated molecular patterns (PAMP), molecules of pathogenic microorganisms’ cell wall, to which human immune system usually reacts. When lactic acid produced in human cells affects fungi, it activates a certain pathway in it which leads to beta-glucan masking on the cell surface. This kind of masking is possible due to increased synthesis of other cell wall components (most often mannan polysaccharides) which hide beta-glucan from the host’s immune system cells.
Critical mycosis progression reveals itself only when the causative agents penetrate into the host in huge quantities (when inhaling dust particles contaminated by fungi, eating products infected with fungi or mycotoxins, being infected in laboratory while working with fungus cultures etc). Diagnosis becomes difficult because of slow development of deep mycosis accompanied with clinical pattern variability and similarity to other diseases.
Laboratory diagnosis is also problematic because fungi structure changes dramatically depending on cultivation conditions (culture medium, temperature, air access). Here we should also take capability of fungus to transit from parasitic form to a saprophytic one into consideration.
Thus mycoses diagnosis is really difficult and is almost impossible in conditions of everyday medical practice, because it requires using equipped laboratories.
Modern traditional medicine underestimates parasites' informational fields. Bacteria, viruses, fungi, protozoans also have a «mind», which is collective.
Thus a new «biofilm» notion appeared, which included the full «bunch» of pathogens. It is formed in nature, in human, and animal organisms. In this context «biofilm» is viewed as an energoinformational structure or system, which exists everywhere and reprograms human's energoinformational structure.
Studying of clinical manifestation and changes degree in «Mycoses» S-markers using «Brimton» software and hardware system took place in Odessa informational medicine center. We believe that results we have obtained and conclusions we have made will be of great interest to practitioners dealing with this problem.
«Mycoses» S-markers were obtained and created on the basis of recorded frequency-field characteristics of different fungi and fungus infected organs in specially equipped research establishments. 247 people aged from 3 to 82 took part in this examination. 35% of them were males, 65% were females.
These patients were treated according to accepted methods of diagnosis and treatment with the help of «Brimton» device. Scientists recorded a standard spectrum signal of a certain patient, after which they carried out a comparative analysis of the obtained signal with S-markers database of «Brimton» spectral therapy software and hardware system. Thus they found certain signals (S-markers) characteristic of different fungi and infected organs.
«Mycoses» S-markers were discovered in 46% of examined persons. This was revealed 2.5 times more often among females compared to males. To be more precise, «Mycoses» S-markers were found in 37% of males and 51% of females. It is also interesting to note, that patients with zero «mycoses» S-markers didn't have complains typical of those in the second group. They consulted the doctor about other pathologies.
«Mycoses» S-marker detection depending on the age
| Age | 3-15 | 16-30 | 31-45 | 46-60 | > 60 | Total in group |
|---|---|---|---|---|---|---|
| «Mycoses» S-markers were discovered | 43% | 38% | 47% | 49% | 51% | 46% |
| «Mycoses» S-markers weren't discovered | 57% | 62% | 53% | 51% | 49% | 54% |
Most commonly registered «mycoses» S-markers are as follows:
| S-МАРКЕР | DETECTION RATE % | AVERAGE VALUE % |
|---|---|---|
| Tendons and ligaments | 96 | 57 |
| Dermatomycosis | 95 | 58 |
| Paranasal sinuses | 94 | 57 |
| Blood circulation | 93 | 58 |
| Mold allergen | 92 | 58 |
| Heart | 89 | 57 |
| Liver | 86 | 54 |
| Stomach | 85 | 57 |
| Small gut | 83 | 54 |
| Kidney | 82 | 55 |
| Lymph | 82 | 54 |
| Aflatoxins | 81 | 57 |
| Biliary tract | 79 | 53 |
| Skin | 75 | 54 |
| Gall-bladder | 73 | 54 |
| Lungs and bronchial tubes | 71 | 54 |
| Small joints | 59 | 52 |
| Neurovegetative cerebral processes typical for fungi infection | 36 | 45 |
| Pancreas | 30 | 46 |
| Bladder | 30 | 45 |
As the above mentioned data show «Mycoses» S-markers were registered more often in patients over 15, the numbers going from 38% to 51%.
All the patients with revealed «Mycoses» S-markers had the same complains, their intensity depended on age, disease duration, and degree of infection in organism or other organs and systems.
| Age | 3 | 15 | 30 | 45 | 60 | > 60 |
|---|---|---|---|---|---|---|
| Complaints and symptoms | Frequent infections | Headache ----------------------------------- | ||||
| Allergies | ------- spinal pain ------------------------ | |||||
| Headache | ------ pains in joints ------------ | |||||
| Gastro-intestinal track | Various GIT pathologies | |||||
| lesion of the biliary tract | ||||||
| Tumors, cancer | ||||||
After we considered the living conditions of patients, it was discovered that in most cases people with diagnosed «Mycoses» S-markers lived or worked in places with infected walls or other surfaces in private houses, in the country etc. Aspergillusniger or the black mold as we know it is extremely dangerous fungi. When a patient has contacts with it the «Mold allergen» S-marker is diagnosed in 92% of cases. «Aflatoxin» marker is discovered in 82% of cases.
Aflatoxins is one of the most dangerous groups of poisonous substances produced by fungi called Aspergillusflavus. Aflatoxins are referred to mycotoxins or poisons produced by mold fungi. Larger quantities of Aflatoxins can be found in yellow mold. Primary they attack human’s liver affecting it at the cellular level. It suppresses protein production and not only they possess hepatotoxic activity, but also act as mutagens, embriotoxins, immune depressants, and teratogens (substance dangerous for the fetus). It was discovered that Aflatoxins can even cause cancer (and it mostly refers to the B1 type).
Pay your attention to the «oncoprotein» marker in the «oncological pathology» markers subgroup. In this case «oncoprotein» level exceeding 50% accompanied by other mycoses markers is a vivid sign of mycoses diagnosing markers.
Therapy effectiveness criteria
The most important task of therapy is to return organism to its self-regulation level and to the frequencies range typical of healthy human organism.
While carrying out therapies with the help of «Brimton» device we take phases of regulatory processes into consideration. Such treatment takes place twice a week (for example, on Monday and Thursday or Tuesday and Friday) thus hitting the major periods of 3, 7, 10, and 14 days. When «bacteria», «viruses», and «mycoses» factors come to normal and the patient's state allows it, we reduce the number of sessions to be done once a week.
If «bacteria», «viruses», «mycoses», and «oncoproteins» factors increase again after a week, it is advisable to make sessions twice a week. In case these parasites and oncoprotein factors didn't increase and the patient feels good, we invite a person to visit our center after 2 weeks.
If there are no complaints after these 2 weeks and the patient’s state of health remains stable, we invite the person to have control examination after a month.
Thus we stimulate self-regulation system in human organism, which makes external interference unnecessary.
In case there is no reaction at all in the organism (bacteria, viruses, fungi, and oncoproteins factors don't go down, or there are no substantial subjective changes in a patient's state of health), we need to make a break for 2 weeks and then continue following the above mentioned treatment pattern. As a rule, organism’s sensitivity to the therapy increases after the break.
Besides, we developed a system of objective estimation of transitional state in the course of therapy. It helps visualize transitional process data.
The basic approaches are as follows:
Nowadays behavior of different self-regulating systems and their transitional processes both in the context of technique and biological systems are widely studied, which is described by the general system theory.
According to the general understanding of system theory when the confounder affects the system, the latter will fail to remain in its dynamic balance state. Due to its delayed action the return to steady state under the influence of a «regulator» will be undergoing via occasional exhaustive process with periods of «overregulation». At the same time such confounder can lead to a new steady state in a system depending on the therapy direction. Transitional process is a general display of any system reaction to treatment.
According to the laws of thermodynamics the system entropy (from Greek «transformation») increases and reaches its maximum value in this state. System entropy is closely connected with orderliness or disorderliness factor of the system components.
We didn't find any information or data about using methods of organism’s regulatory systems evaluation in clinical practice in the context of above mentioned theoretical approaches when using bioenergetic methods of diagnosis, treatment, and human disease prevention.
We studied transitional processes in various regulatory systems of human organism as well as the complaints and symptoms dynamics in patients in the course of information-wave therapy (IWT) sessions. We also examined changes in «homeostasis» markers: bacteria, viruses, mycoses, and oncoprotein as well as system markers in «diagnosis» section: hepatobiliary system (HBS), gastro-intestinal track (GIT), urogenital system (UGS), locomotive system (LMS), cardio-vascular system (CVS), respiratory system (RS), endocrine system (ES), brain (CNS).
We analyzed changes in complaints, symptoms, and markers in patients aged from 5 to 60, 31% of which were males and 69% of which were females.
During the whole treatment course we registered complaints and symptoms in patients according to their intensity and quantity. Highly intensive symptoms were rated 3 points, moderately intensive symptoms were rated 2 points, poorly intensive symptoms were rated 1 point, periodically exposing symptoms were rated 0.5 points, and absence of symptoms was rated 0 points.
Transitional processes were evaluated in accordance with changes in average marker value compared to the previous values in per cent. Higher values exceeding «0» meant increased correspondence with pathologies markers. The most frequent complaints of patients concerned joints and spine pathologies (35%), cerebrospinal nervous system pathology (24%), gastro-intestinal track and hepatobiliary system pathology (16%), respiratory system (10%), and other organs and systems pathology (15%).
The average number of sessions carried out was 8.0 ± 0.4 (p<0.01).
Dynamics in number and intensity of complaints and symptoms
Rapid decrease in number of complaints and pain syndrome intensity in points occurred by the 3-4th session, while they totally disappeared or were characterized as temporary or occasional by the 8th session.
As a rule, patients complained about feeling worse or having pain symptoms like they had before the treatment by the 3-4th session. Subjectively they estimated their state of health as the one they had when their disease started. Such feelings could occur within several hours or one day and, as a rule, it occurred on the second day of IWT session. Peaks in S-marker values were also seen during this period.
S-markers changes developed in each patient individually, nevertheless it is possible to single out general tendencies in their dynamics.
As the acquired data show S-markers reaction in all the systems under research was different from the 3rd till the 6th session. A certain rearrangement took place in these systems.
Dynamics of infection level markers
There is a tendency in transition to the state of maximum disorderliness and chaos after treatment in IWT mode. All systems reaction to the treatment was unidirectional and synchronic after the 6th session of IWT. Then S-markers values went down below zero mark and weren't relevant for pathology diagnosis after the 8th session.
The main characteristic of steady state is defined in Prigozhin's theorem according to which entropy production in steady state is minimal. This means that the system scatters minimal energy into the medium and needs minimal reception of free energy for maintaining its state. Prigozhin's theory explains stability of steady states in open systems. If the system quits this state, we can see the increase of entropy. As a result, certain processes occur in the system in attempt to return it to its steady state.
We actually witnessed the same processes after the 2nd session of IWT. The period when all the systems work in the same rhythm corresponds to subjective improving of a patient's health state. In those patients who didn't have any complaints about their health systems behavior in response to treatment was always synchronic and in the state of dynamic balance.
In healthy organism all the transitional processes are stable. System entropy in a steady state is stable but not maximal.
As it was noted «true health is not the absence of disease expression, but a state of inner harmony when organism structure is flawless and functioning in its optimal mode. Healthy organism develops according to its basic program, and in case this functional basis is violated you can only change this state by treating the whole organism, smoothening its structural form and restoring its basic matrix of functional life processes. Otherwise deformed therapy plan will lead to repeated informational failures resulting in coming out of harmony state which is also known as a disease».
Dynamics in systems markers
Systems marker dynamics in a practically healthy person
Transitional processes analysis in various organism systems in the course of IWT makes it possible to objectivize and timely evaluate the patient’s state. Maximum positive effect becomes possible with optimal number of IWT sessions.
Biological organism consists of multiple structural-functional parts united into multilevel network, where each cell’s informational component influences other subforms (tissues, organs, systems etc.) and organism in general.
This being said, each regulation system is a fractal of the whole organism. As our research showed, when any system functionality is violated, we may witness pathological state or disease, in which all the systems react to exterior disturbance in its own rhythm. The system function fractality is damaged, which becomes apparent in general system entropy increase.
When initial functionality of any system is restored, both the whole organism and the system react to any disturbance in the system. In other words, we can witness the same single-type synchronic response of all the systems under analysis.
Transitional processes analysis in various organism systems in the course of IWT sessions with the help of «Brimton» software and hardware system makes it possible to objectivize and timely evaluate the patient’s health state. Maximum positive effect becomes possible with optimal number of IWT sessions.
The work and analysis results show absence of complaints from patients in 83% of cases after the first therapy session. Subsidiary traditional methods of examination didn’t show any pathologies as well. In 10% of cases we witnessed considerable improvement in health, the patients had only 2-8 complaints compared to the number they had before the treatment. In 7% of cases only 3-5 complaints remained (compared to 15 people had before the therapy), their intensity (pain syndrome) reducing from 20 to 3 points. It was clear that health state improved greatly.
Reference list
- B.R. Bogomolny, A.A. Aristenko, V.P. Barzinsky. Regulatory processes dynamics during informational-wave therapy sessions with the help of «KSK-BARS» device. Bioenergetics in medicine and biology № 1(2), Dubai. 2018. с. 52-64
- Bogomolny B. R., Barzinsky V. P. METHODOLOGICAL APPROACHES TO WORKING WITH THE «KSK-BARS» SOFTWARE AND HARDWARE SET // Bioenergetics in medicine and biology № 1(1), 2017. Р. 25-55.
- B.R. Bogomolny, V.P. Barzinsky, T.L. Gridina, A.S. Fedchuk, L.M. Mudrik. Electromagnetic waves influence on microorganisms growth and viruses reproduction in extra-long waves ranges. Problems of innovational and investment development. Scientific magazine. – K.:Millenium, 2016, #6, 165-177
- B.R. Bogomolny, V.P.Barzinsky, T.L. Gridina, A.S. Fedchuk. Influence on the microorganisms growth with the help of «KSK-BARS» device. Materials of the conference. Kiev, 24-25 April 2014.
- B.Bogomolny, V.Barzinsky, T.Grydina , A.Fedchuk , L.Mudryk, V.Lozitsky The Influence of Electromagnetic Fields of the Extra-Low Frequency on the Infectious Activity of the Influenza Virus and Staphylococcus Aureus. 27th International Conference on Antiviral Research (ICAR). North Carolina USA MAY 12 – MAY 16, 2014. №33.p.51.