WO2020005193A1

WO2020005193A1 - Methods for pre-doctor diagnosis of a person on the basis of indices of the electrical resistance of the skin and pre-doctor resonance therapy

Info

Publication number: WO2020005193A1
Application number: PCT/UA2019/000036
Authority: WO
Inventors: Евгений Владимирович ЧЕРНОГУБОВ; Владимир Анатольевич ЧЕРНОГУБОВ
Original assignee: Евгений Владимирович ЧЕРНОГУБОВ
Priority date: 2018-06-27
Filing date: 2019-03-19
Publication date: 2020-01-02

Abstract

The invention relates to a method for pre-doctor diagnosis of a person on the basis of indices of the electrical resistance of the skin and to a method for pre-doctor resonance therapy. In order to carry out a diagnosis, areas of the skin cover for mounting 2-6 sensors in biologically active areas (BAA) are predetermined. The electrical resistance is measured using a combined connection of the sensors to the BAA and changing the polarity of test signals. The biological signals picked up are processed, both from each sensor individually, and also by synchronizing the signals between the sensors, thus simulating a process of "electronic anamnesis" with a tolerance of the diagnostic results of 2-3%. A pre-doctor diagnosis is formed on the basis of the relationship of the following indices: the overall number of measurements in a patient database, the overall number of matches of measurements in the patient database, the number of individual matches of measurements with measurements of patients from the database who have a confirmed diagnosis, and error rates. In order to carry out pre-doctor therapy, a frequency range of the pathology is determined on the basis of the results of the pre-doctor diagnosis, and a therapeutic action is carried out on the patient by creating a frequency resonance. Furthermore, the resonance error is not more than 0.03-0.06% of the measured value, and the duration and/or periodicity of exposure is established on the basis of the "electronic anamnesis" data.

Description

METHODS OF PERSONAL DIAGNOSTIC OF A MAN ON

INDICATORS OF ELECTRIC RESISTANCE OF SKIN AND FIRST-RESONANCE RESONANCE THERAPY

The method of pre-medical diagnosis of a person’s condition according to the electrical resistance of the skin and the method of pre-medical resonance therapy based on the "electronic history" on the Webwellness complex, or in abbreviated form - The method of pre-medical diagnosis and pre-medical therapy, relates to the field of medicine, namely, to the modern industry of pre-medical diagnosis of the condition person.

There are various methods for diagnosing diseases based on measurements of bioelectric potentials of the skin. The invention relates to medicine, in particular, to methods and systems that include taking measurements to diagnose the functional state of the human body and / or using the results of such measurements by electroencephalography, electrocardiography, rheography, etc.

State of the art

The well-known "Method" of assessing the functional state of a person, which includes the removal of biological signals of a person using at least one sensor, registration of biological signals, automatic analysis of registered biological signals and display information about the functional state of a person (patent EP 1629770, publ. 03.2006) . The disadvantage of this solution is the low reliability of the assessment of the functional state, since it usually analyzes the result of a one-time registration of human biological signals without taking into account other factors (history, comparative analysis with previous similar studies, situational context for recording biosignals, that is, information about the current state and well-being person medicines taken by him, etc.). In addition, the method known in the patent EP 1629770 characterizes the lack of clarity of the presentation of information for an unprepared person, since the information is provided in a tabular form indicating the presence of various types of deviations and to assess his functional state, a person needs either special knowledge or explanations of a specialist.

A known method for the topical diagnosis of diseases, which involves applying two electrodes to the skin and taking direct current resistance measurements (USSR Author's Certificate Ns 721080, class A 61 B 5/05, 1984). According to this method, the pathological zones of the test are established to reduce the electrical resistance of skin areas 10-15 times lower than the resistance of other parts of the body surface. However, this method cannot be considered as an accurate diagnostic one, since the same skin zones (Zakharyin-Ged zones) are connected in some cases with different human organs, and also cannot provide information about the degree of the subject’s disease.

More advanced are diagnostic methods that are based on electrical studies of acupuncture points that are used in reflexology.

A known method of electropuncture determination of pathology in human organs according to R. Voll (Horst Leonard. Fundamentals of electropuncture according to Voll. Salzburg, 1979). According to this method, with an acute pathological change in the body, acupuncture points always cause a "drop" in the needle of the measuring device, the magnitude of which does not change with increasing pressure on the measuring electrode. At the same time, a positive potential is applied to the measuring electrode at acupuncture points.

In addition, Voll establishes certain levels of deviation of the needle of the measuring device (above 80 cu, below 80 cu, 80-85 cu), and the determination is carried out by measuring four-fold conductivity: "arm - arm", " the left hand is the left foot ”,“ the right hand is the right foot ”and“ the foot is the foot ”. IN depending on the deviations of the arrow of the device (<80,> 85, 80 - 85 cu), the patient is supposed to have sympathicotonia, vagotonia, or energy recharge of the body. In addition, if the indicated pathological condition is established, then an examination of the internal organs is carried out at other Voll points, of which more than 100.

One of the significant drawbacks of the Voll method is that in order to obtain reliable measurements, a number of conditions are required for the room in which the studies are conducted (location relative to sources of external interference, distance from electric fields, floor and wall coverings, measuring bed, etc.), to the patient under study (the absence of synthetic clothing, metal products, clean skin, etc.), to the researcher (the clothes of the researcher, the presence of metal products on the body and clothing, isolation of the arm publisher, etc.). Only if all the requirements for the premises, the researcher, the patient are met, the technique gives reliable results.

There is also a known method of electro-puncture diagnosis of diseases proposed by Nakatani (FG Portnov. Electro-puncture reflexology. Riga: Zinatne, 1988.). According to this method, the lines of greatest conductivity corresponding to classical meridians are determined in the body. These Nakatani lines are called riodoraku. According to this method, lines with good electrical conductivity are a phenomenon of pathology of various organs of the person. With the help of the electrical conductivity of the so-called representative points of the 12 meridians (24 points on the left and right), certain symptoms of diseases are determined. With high electrical conductivity, some symptoms are determined, with low - others. At the same time, a positive potential is applied to the electrode, which is installed in the acupuncture point, and negative, to the plate that is clamped in the hand.

However, this method, as a diagnostic, did not find wide distribution, since it does not have high accuracy.

The aim of the proposed method is to increase the accuracy of diagnosis. This goal is achieved by acting on representative points of 12 meridians with a current of positive and negative polarity, the effect being carried out in the order of energy transfer according to its hourly circulation in the circadian biorhythm, the biopotentials of each meridian are established, comparing them with normal values for all meridians and determining the most affected meridians also establish the meridian voltage vectors by comparing the conductivity of each following with each previous We apply the meridian, calculate the load and voltage of the meridian in percent, the stress of the body and determine the degree of disease of the organs by comparing the meridional indicators of the voltage of the meridian, biopotential, voltage vectors among themselves, as well as by comparing these indicators with the general indicators of the body.

A comparative analysis of the claimed solution with the prototype shows that the claimed method differs from the known one in that it additionally determines the conductivity of the meridian under a current of negative polarity, calculates the absolute difference in conductivity under a current of positive and negative polarity, thus determining the biopotential of the meridian, determines the most pathological meridians, by comparing their biopotentials with indicators of their normal values, sets the voltage vectors of the meridian, determines the "stress c "of the organism, the voltage of the meridians and systems, determines the direction of energy movement in the meridians and determines the degree of disease of the organs, by comparing the meridional indicators of voltage, biopotential, voltage vectors with average values for the whole organism.

The prior art automatic “System” for evaluating the functional state of a user, which includes at least one biological signal sensor, a biological signal recorder and a unit for analyzing registered signals (patent EP 1629770, published 01.03.2006). The disadvantage of this system is its low efficiency, which due to both the low probability of the assessment results, which are possible only on the basis of recorded biosignals without taking into account their dynamics and the situational context of biosignal registration, and the need for a specialist to obtain an assessment of the functional state in a form accessible to a person by a person who does not have special medical training .

The prior art "System for remote determination of the patient’s health" (patent of Ukraine N ° 10835), which includes a module of electrodes / sensors for recording electrical activity and mechanical vibrations, a module for primary processing of measurement results, a module for transmitting results and receiving feedback information, a module reproducing measurement results and reproducing recommendations, communication channels - fiber optic, radio modem communication with diagram coverage of the territory, satellite communication system - GPRS, and a server, which is characterized in that the system further comprises electrodes for recording electrical signals and sensors for recording mechanical vibrations, which are connected to the server by a combined communication system for simultaneous synchronous processing of information, as well as generating recommendations regarding the patient’s health status.

The technical solution is known for the DISEASE DIAGNOSIS METHOD (RF patent N ° 201 1373), according to which the method is carried out by influencing representative points of twelve paired meridians with a current of 2-10 μA for 1 to 3 s per point. The value of electrical conductivity is determined under the influence of current of positive and negative polarity, the meridian biopotentials are calculated, which are equal to the absolute difference between the electrical conductivity, voltage vector of each meridian, characterizing the direction of energy movement in the meridians and their voltage. Comparing the average indicators of the body with the values of biopotentials, stress and The directions of energy movement in the meridians determine acute and chronic inflammatory processes in the body, as well as its normal state.

In accordance with the proposed method, the diagnosis of diseases involves exposure to an electric current of 2-12.5 μA for 1 to 3 s on representative acupuncture points of twelve paired meridians, which is characterized in that in each of the studied points the value of electrical conductivity when exposed to a positive and negative polarity, calculate its biopotential, which is equal to the absolute difference of these values, determine the average value of the biopotentials of all the studied points and its root mean square deviation, calculate the voltage vector of each meridian when the current is affected by positive and negative polarity, by determining the absolute values of the difference in the conductivity between each next and previous representative points and its direction from a larger value to a smaller one, determine the energy load at each representative point when exposed to a positive and negative polarity, as the ratio of the absolute value of the voltage vectors of the meridian to the biopotentials of the meridian, you Percent, calculate the values of the stress vectors of the meridians, which have the same direction, and determine the state of the system of organs - governing bodies, the stress of the body, as the ratio of the sum of the stress vectors of all meridians to the sum of the biopotentials of the studied representative points, expressed as a percentage, while in the normal state of the body the value of the biopotentials of the representative points of the studied meridian is in the range D = ^ ± s _h , where D is the value of the biopotentials of the representative points of the meridian; - the average value of the biopotential of the patient; s _h is the standard deviation of the biopotential, the meridian stress indicators do not exceed the body stress indicators, the energy direction in the meridians corresponds to the generally accepted one, the sum of the centripetal stress vectors the meridian is equal to the sum of the indices of the centrifugal meridian stress vectors, their asymmetry does not exceed 150%, and the total stress of the body does not exceed 100%, in the presence of an acute inflammatory process in any organ, the value of the biopotential of its representative point exceeds the value ^ ± Q _n , the meridian stress increases by more than 1, 5 in comparison with the stress indicator of the body, the direction of energy movement in the meridian does not coincide with the generally accepted one, the asymmetry of the voltage vectors at the positive and negative current values increases by two times or more, in paired and adjacent meridians, the difference between the biopotential values exceeds the standard deviation of the potential, and in a chronic inflammatory process in any organ, the biopotential value of its representative point is within ±, the direction of energy movement in the meridian does not correspond to the generally accepted one, the value of the meridian voltage increases more than twice as compared with the stress indicator of the body, the asymmetry of the stress vectors on the positive and negative current value increases ie one and a half to two times.

Closest to the technical solution, which is claimed, regarding the technical task and the expected technical result, there is a Method for pre-medical evaluation of a person’s functional state and an automatic system for assessing a user's functional state (RF patent Ns 2445916), a prototype, according to which the method includes the removal of biological signals using at least one sensor, their registration, automatic analysis, including the calculation of heart rate variability parameters and the indicator of activity of the regulator systems, the allocation of parameters that indicate the risk of cardiological disorders, sudden cardiac arrest, as well as detected cardiac arrhythmias and display information about the functional state. Additionally, personal data is recorded on the patient’s current state of health at the time the biological signals were taken, and lists of possible causes of changes in the functional state are automatically generated, corresponding to the preliminary recorded history data, data on current state of health and data on parameters that go beyond the threshold values of a normal electrocardiogram or parameter values of previous electrocardiograms and choose a wording that expresses an assessment of its functional state to inform the subject. The system for implementing the method includes biosignal sensors, a registrar and an analysis unit for registered biosignals. In addition, it is provided with a user terminal for entering data on his well-being, a unit for automatically generating lists of possible causes for a change in the user's functional state, and for selecting a message to the user that expresses an assessment of his functional state connected to the analysis unit for registered biosignals. The second version of the system is characterized in that it includes a user terminal for entering data information from the biosignal recorder or editing information about his current state of health.

The indicated technical results of the prototype are achieved in a method of pre-medical evaluation of a person’s functional state, which includes the removal of biological signals using at least one biosignal sensor (electrocardiogram, electroencephalogram, rheogram, plethysmogram), registration of biological signals, automatic analysis of registered biological signals, including calculation parameters of heart rate variability and an indicator of the activity of regulatory systems, the allocation of parameters that indicate n the risk of cardiological disorders, sudden cardiac arrest, as well as detected heart rhythm disturbances, and the display of information about the functional state, while registering personal data on the current state of health of the person being examined, at the time of taking the biological signals, they automatically generate lists of possible causes that affect functional state corresponding to pre-recorded history data, current state of health, and data on biosignal parameters that go beyond the threshold values of the biological norm or the parameter values of previously obtained biosignals, and choose to communicate to the person who is being examined, the wording that expresses an assessment of its functional state.

The following data are known from the prior art for studying frequencies of parts of the human body (study by Dr. Robert Becker):

1. The average frequency of the human body in the daytime is 62-68 MHz.

2. The frequency of the parts of the body of a healthy person in the range of 62-78 MHz, if the frequency drops, then the immune system has suffered losses.

3. The main brain frequency can be in the range of 80-82 MHz.

4. The frequency range of the brain is 72-90 MHz.

5. The normal brain frequency is 72 MHz.

6. The frequency of parts of the human body: from the neck up lies in the range 72-78

MHz

7. The frequency of parts of the human body: from the neck down lies in the range of 60-68

MHz

8. The frequency of the thyroid gland and parathyroid glands is 62-68 MHz.

9. The frequency of the thymus gland is 65-68 MHz.

10. Heart rate 67-70 MHz.

11. The frequency of the lungs 58-65 MG c.

12. The frequency of the liver 55-60 MHz.

13. The frequency of the pancreas is 60-80 MHz.

14. The bone frequency of 43 MHz, at this frequency, the bones do not have their immunity, despite their rigidity. They are protected by soft tissues with a higher natural frequency.

Colds and flu will begin in humans if the frequency drops to 57-60 MHz. If the frequency falls below 58 MHz, any disease occurs, depending on its pathogenic source.

Fungal infections grow when the frequency falls below 55 MHz. Cancer susceptibility occurs at a frequency of 42 MHz. Frequency drop to 25 MHz - collapse, death.

The technical solution, which is claimed, is based on the technical task, improving the method of pre-medical diagnosis of a person’s condition according to skin electrical resistance indicators at the Webwellness complex, which includes: taking biological signals using sensors to measure skin electrical resistance, registering biological signals in a database, processing registered signals in the database, which pre-determine the area of the skin to establish a minimum of 6 sensors on biolo active zones, take measurements between biologically active zones (BAS), for which they use the combined connection of sensors to the BAZ, changing the polarity of the test signals, combine 6 electrodes to measure the state of at least 47 organs and human systems for their further pre-medical diagnosis according to the systems: - bloodthirsty, - broncho - pulmonary, - digestive, - genitourinary,

- endocrine, - immune, - organs of the head, - joints, taken biological signals are processed, both separately from each sensor, and by synchronizing the signals between the sensors, simulating the process of “electronic history” with a tolerance of examination results of 2-3%, and the result of pre-medical diagnoses (pre-medical diagnosis) are formed on the basis of the ratio of the following indicators: - total number of measurements in the patient database; - the total number of measurement matches in the patient database;

- the number of individual coincidences of measurements with measurements of patients from the base who have a confirmed diagnosis; - error coefficients, due to which they solve the problem of optimizing the establishment of a preliminary diagnosis in time and accuracy.

The inventive step of the method of pre-medical diagnosis is as follows. It is known from the prior art that medical diagnosis depends on the professional qualifications of the doctor and on the time during which the doctor works independently.

It is also known that the doctor establishes the diagnosis by analogy with the patients he previously diagnosed, that is, with patients who have achieved the goal, namely, they have been cured.

Thus, the proposed method, simulating the process of “electronic history”, actually performs the function of “medical experience”, which certainly has a certain error, but the diagnosis, which is formed on the basis of the ratio of indicators such as the total number of measurements in the patient database, the total number coincidences of measurements in the patient database, the number of individual coincidences of measurements with measurements of patients from the database who have a confirmed diagnosis has a significantly larger amount of data, than may keep in mind the common man.

In the proposed method, the author pre-determines at least two areas of the skin and installs from 2 to 6 sensors on biologically active zones.

The author takes measurements between biologically active points, for which he uses a combined connection of sensors to human organs and / or systems, namely, but not only: - circulatory, - broncho - pulmonary, - digestive, - genitourinary, - endocrine, - immune, - organs of the head, - joints, and measurements of electrical resistance are carried out, both changing and not changing the polarity of the signal that is supplied to the sensor.

Then, the taken indicators of biological signals are processed, both separately from each sensor, and by synchronizing the signals between the sensors, simulating the process of "electronic history" with a tolerance of the examination results of 2-3%.

The result of pre-medical diagnosis (pre-medical diagnosis) is formed on the basis of the ratio of the following indicators: - total number of measurements in the patient database;

- the total number of coincidences of measurements with measurements of patients from the base who have a confirmed diagnosis;

- error coefficients.

By accumulating actual data and combining the connection of the electrodes by replacing the polarity of the signals that are supplied to the electrodes, the author has expanded the base of the tested organs and increase the reliability of the results.

The technical solution, which is claimed, is based on the technical task, the improvement of the “Method of pre-medical resonance therapy based on the“ electronic medical history ”at the“ Webwellness ”complex, which includes: processing the results of pre-medical diagnosis (pre-medical diagnosis); determination of the frequency range of the pathology according to the results of pre-medical diagnosis (pre-medical diagnosis); setting the therapeutic effect on the patient of the electromagnetic wave emitter unit of the Webwellness complex, while the electromagnetic wave emitter block is capable of emitting without a wire signal (antenna - inductor) and / or using a wire signal of low currents in the range of 0.1 Hz -1 MHz, in which due to the fact that the therapeutic effect on the patient is produced by creating a frequency resonance between the frequency of the pathology according to the pre-medical diagnosis and the frequency of the emitter, the emitter frequency is fixed the memory of the complex for use in a hospital or for individual use, while the resonance error is not more than 0.03 - 0.06% of the measured value, and the exposure time (duration and / or interval) is established on the basis of the "electronic history", decide the technical task of establishing the optimal treatment parameters for the patient.

The inventive step of the resonance therapy method is as follows. The occurrence of resonance from coincidence of frequencies in resonance therapy is known in the art. For example, the frequency ranges of the occurrence of resonance are known, which affects certain human organs, namely:

- 8-27 Hz (head resonance);

- 40-100 Hz (eye resonance);

- 0.5-13 Hz (resonance of the vestibular apparatus);

- 4-6 Hz (heart resonance);

- 2-3 Hz (resonance of the stomach);

- 2-4 Hz (intestinal resonance);

- 6-8 Hz (kidney resonance);

- 2-5 Hz (hand resonance);

- 2 ... 12 Hz - chest;

- 6 ... 27 Hz - throat;

- 12 ... 27 Hz - eyeball apple;

- 4 ... 27 Hz - face and jaw;

- 4 ... 14 Hz - lumbar spine;

- 4 ... 12 Hz - organs of the abdominal cavity;

- 6 ... 7 Hz - death from cardiac arrest and destruction of blood vessels.

However, the proposed technical solution, “A method for pre-medical diagnosis of a person’s condition according to skin electrical resistance indicators at the Webwellness complex, is based on other important approaches, both technical and algorithmic in nature, namely, on resonance therapy, based on an“ electronic history ”, that is, exposure to the patient by the emitter of electromagnetic waves of the Webwellness complex.

Since the therapeutic effect on the patient is carried out by creating a frequency resonance of the pathology frequency, according to the pre-medical diagnosis and the frequency of the emitter, and the frequency of the emitter is fixed in the memory of the complex for use in a hospital or for an individual use with a resonance error of not more than 0.03 - 0.06% of the measured value, it is possible to establish phasing not only in the treatment of the patient, but in alternation between the stage of diagnosing a person’s condition, according to the electrical resistance of the skin and the stage of resonance therapy based on "electronic history "At the Webwellness complex.

Industrial applicability.

A method of pre-medical diagnosis of a person’s condition according to skin electrical resistance indicators at the Webwellness complex, which includes taking biological signals using sensors, registering biological signals, automatically analyzing registered biological signals in a database in which at least two skin areas are preliminarily determined for sensor installation, six sensors are installed to measure the electrical resistance of the skin, and the captured biological signals are processed separately from each Occupancy and by synchronizing the signals between the sensors, process modeling "electronic history" with a tolerance of 2-3% of the survey, and the result of first-aid diagnosis (first-aid diagnosis) is formed on the basis of the relationship of the following parameters: - total number of measurements in the patient database; - the total number of measurement matches in the patient database; - the number of individual coincidences of measurements with measurements of patients from the base who have a confirmed diagnosis; - error coefficients, carried out using the complex "Webwellness", which is used for diagnostics by measuring conductivity and for therapy to normalize conductivity.

Moreover, a feature of the method that is claimed is that it is not local non-specific therapy that is carried out, but first the measurement of the entire energy balance of a person using electrodes with a large surface (conductivity measurement), and then normalization of conductivity using therapy using low-frequency positive or negative pulse currents under constant control (conduction therapy).

It was found that for accurate measurement, the average value of conductivity should be 40-80 divisions so that during the diagnosis of the organ do not miss the arrow drop. Then, when the conductivity of the body is above 80 divisions and its bioelectric energy balance is sufficient for measurements, then in this case conductivity is measured.

If the conductivity value is below the average value, it is necessary to carry out appropriate therapy in order to bring the conductivity to normal values, which range from 40 to 80. The conductivity value, greater than 80, is not a big obstacle to measurement.

It is known that a person has more than 47 tested systems and organs that have their own “normal range” - the average value that corresponds to the normal state of a healthy organ.

The conductivity value can be within the norm from 40 to 80 divisions even when the individual measurement values are significantly higher or lower than the norm, since conductivity is a measure of the overall energy balance, while the measurement value is a measure of the energy level of the corresponding organ.

For example, an arm-to-arm conductivity measurement and its average value of 80 corresponds to a measurement on the arms, neck, back of the head and chest, since for all measurements located in the lower half of the body, the leg-to-leg conductivity measurement is valid. or "arm is leg."

However, as a rule, it is enough before the measurement (located even on the lower extremities) to control only the "arm-arm" conductivity.

A high probability of assessing the functional state is achieved by the possibility of installing in the settings of multiple registration of human biological signals (history, comparative analysis with previous similar studies, the situational context of the registration of biosignals, that is, information about the current state and well-being of a person, medication taken by him, etc.).

When implementing the method, there are sources of errors.

Conductivity values that are too low may be erroneously obtained:

- if the device is directly powered by the mains, it will not warm up enough after switching on;

- if the device is incorrectly configured;

- if the patient’s hands are too dry.

Too high conductivity values may be obtained:

- with very strong perspiration.

A related causal relationship of a single technical concept is the technical task of implementing a method of pre-medical resonance therapy based on an “electronic medical history” at the “Webwellness” complex, which includes processing the results of pre-medical diagnosis (pre-medical diagnosis), determining the frequency range of the pathology based on the results of pre-medical diagnosis (pre-medical diagnosis), setting the block - emitter of electromagnetic waves of the Webwellness complex, despite the fact that the block is the emitter of electromagnetic waves ln is configured to emit a wireless signal (conductor) and / or using a wire signal of low currents in the range of 0.1 Hz - 1 MHz, in which the therapeutic effect on the patient is produced by creating a frequency resonance of the pathology frequency according to the pre-diagnosis and the emitter frequency, this frequency of the emitter is fixed in the memory of the complex for use in a hospital or for individual use, while the resonance error is not more than 0.03 - 0.06% of the measured value, and the exposure time (continued duration and / or intervals) are established on the basis of the “electronic medical history” data. Structurally, the hardware-software complex "Webwellness" consists of two blocks (Block Ns 1 and Block Ns 2) and software. The first block is a block of reading indicators, the second block emits electromagnetic waves and is therapeutic.

We connect the sensors to the patient and measure the electrical resistance of the skin of certain areas. In our case, we use six electrodes, but there may be fewer or more. The basis is skin resistance, which varies depending on the state of the body. We carry out not only the measurement of skin resistance, but also carry out a comparison of the resistance between different electrodes.

Using Block Ns 1, we take measurements from electrodes. Next, the measurements are processed using software, and the result is displayed. Also, processing can be carried out on a remote server via the Internet.

Analysis of the recorded indicators and the search for a possible result is as follows.

Having in advance, a large number of measurements (on the first point) in people with clinically proven diagnoses, a database has been formed. Further, the program looks for similar results in this database.

Those data that coincide (with a tolerance, for example, 10%) are selected in a separate list, which is displayed in the software report. At the same time, we can calculate the probability of a particular disease in a given patient based on the number of measurements that coincided and their diagnoses. For example: the database contains 10,000 measurements of patients with clinically proven diagnoses and the program found thousands of matches. Of these, 1000–500 had a sick heart, 250 had a lung disease, 150 had a diseased esophagus, and 100 had a diseased spine. Thus, we can assume that in this patient, who has the same indicators as in the choice, the probability of having a heart condition is 50%, 25% is a lung disease, 15% is sick esophagus and 10% diseased spine. And the larger the database and the larger the sample of matches, the greater the likelihood of a correct determination.

Also, when making a possible diagnosis, you can enter correction factors. Additional information "history" may make adjustments to the formulas for determining a possible diagnosis.

After diagnosis, we can apply therapy with the help of the second block.

The principle of electromagnetic therapy on the principle of resonance and on the principle of harmonization.

The principle is based on the knowledge that every living creature on earth emits electromagnetic waves. Electromagnetic vibrations emit human organs, bacteria, parasites, fungi, viruses.

The Ns 2 block is a device that, using antennas - inductors, generates electromagnetic waves of a certain frequency. This frequency, penetrating the body, causes a resonance precisely with the infection with which the frequency coincides. Resonance leads to a disruption in the normal functioning of the pathogen. Thus, knowing the frequency of the pathogen, it can be killed in the body without the use of any drugs and additional exposure. Moreover, this technique is absolutely safe, since the electromagnetic effect is rather weak, as well as the frequency of vital activity of pathogens is much less than the frequency than the frequency of human organs.

The influence of the device can be carried out both with the help of antennas and with the help of electrodes, which, in contact with human skin, conduct a small current through the body at a given frequency.

Knowing the patient’s possible diagnosis, the program can compose a complex of the frequencies of the causative agents of these diseases and flash the device via usb, wi-fi or in another way. After recording to the device, the patient may use it autonomously (it can be with a battery, batteries or powered by a power supply).

In block number two, we placed several antennas for better radiation of certain frequencies. Antennas differ in the area of the emitted surface and other parameters, due to which we can achieve a much greater effect when reproducing certain frequencies. In therapeutic devices, this is used for the first time. A device can have two or more antennas.

It has been experimentally established that the removal of biological signals using sensors, registration of biological signals, automatic analysis of registered biological signals in a database, in which at least two areas of the skin are preliminarily determined for the installation of sensors, six sensors are installed to measure the electrical resistance of the skin, and the recorded biological signals process, both separately from each sensor, and by synchronizing signals between sensors, simulating the process of mneza "survey results with a tolerance of 2 - 3%, and the first-aid diagnosis result (first-aid diagnosis) is formed on the basis of the relationship of the following parameters: - total number of measurements in the patient database; - the total number of measurement matches in the patient database; - the number of individual coincidences of measurements with measurements of patients from the base who have a confirmed diagnosis; - error coefficients; solves the technical problem of obtaining an accurate measurement of the average value of the conductivity of the skin, which should be 80 divisions so that during the diagnosis of the organ do not miss the arrow, while when the conductivity of the body is above 80 divisions so that its bioelectric energy balance is sufficient for measurements, and therefore it is necessary to conduct conductivity measurements.

If the conductivity value is below the average value of 40, it is necessary to conduct appropriate therapy in order to bring conductivity, at least up to 80, and better, to normal values, which range from 40 to 80. The conductivity size is more than 80, and is not a big obstacle to measurement.

The conductivity value can be within the norm of 40 - 80 divisions even when the individual measurement values are significantly higher or lower than the norm, since conductivity is a measure of the overall energy balance, while the measurement value is a measure of the energy level of the corresponding organ.

Strictly speaking, the arm-arm conductivity measurement and its average value of 80 corresponds to the measurement on the arms, neck, neck and chest, since for all measurements located in the lower half of the body, the leg-to-leg conductivity measurement is valid .

A high probability of assessing the functional state is achieved by the ability to set the settings for multiple registration of human biological signals (history, comparative analysis with previous similar studies, the situational context for recording biosignals, that is, information about the current state and well-being of a person, medications taken by him, etc.).

Examples of diagnostics and the proposed treatment based on the proposed method of pre-medical diagnosis of a person’s condition by indicators of skin electrical resistance and pre-medical resonance therapy based on an “electronic history” on the Webwellness complex are given below.

EXAMPLE 1

The patient is 68 years old. Female. During the study, the patient had an increased tension in the state of organ hyperfunction, the corresponding abduction of the left arm - the left leg (95 arbitrary units), as well as the abduction of the left leg, the right leg (98 units with a norm of 70 - 85), which also corresponds to a state of hyperfunction. The indicated leads correspond to: left kidney, heart, left lung, thoracic spine, esophagus, stomach, pancreas, sigma, descending colon. In combination with the lower lead (left leg - right leg), which corresponds to the urogenital organs, rectum, lumbosacral spine, as well as venous vessels of the pelvic organs and joints. Measurements of other leads were in the normal range.

Comparing all the measurement data and checking the readings of verified diagnoses, the device gave out as a possible diagnosis: phlebitis, thrombophlebitis, joint inflammation.

On interrogation, the patient confirmed the inflammation of the veins of the left leg and the inflammation of the veins in the lower abdomen. Work is associated with a long stay on legs, overweight, uncomfortable shoes.

The patient was recommended a treatment complex consisting of 7 stages. The purpose and purpose of each phase have been indicated. The use of therapeutic programs programmed into a therapeutic device was also proposed. Programs for each stage were scheduled.

After completing the full course of therapy, the problem was resolved.

The main mechanisms that must be addressed in this disease are:

• inflammation of the vein wall or phlebitis, tendency to thrombosis, slowing blood flow through the veins, edema.

• THROMBOFLEBIT BASE

• BALANCE OF A COLLABORATING - ANTI-SULFURING SYSTEM.

Stage 1 - duration 7 days.

Stage goal:

• suppression of the activity of thrombosis and resorption of existing blood clots.

Therapy program:

• Suppression of thrombus formation and thrombus lysis. Stage 2 - duration 7 days.

Stage goal:

^• reception of "warming up the blood" and increased blood flow through the veins and arteries with the elimination of congestion and edema.

Therapy program:

• STRENGTHENING BLEEDING IN ARTERIES AND VEINS.

Stage 3 - duration 7 days.

Stage goal:

^• purification of venous blood from toxins, toxins and poisons, which contribute to thrombosis and inflammation of the walls of the veins.

Therapy program:

• CLEANING THE VENOUS BLOOD AND Lymphs from toxins.

Stage 4 - duration 7 days.

Stage goal:

• removal from the blood of sorbed toxins, toxins and poisons with urine and feces with the active participation of blood cells, which not only dissolves the toxins for better absorption by the immune blood cells, but also makes it easier to release toxins with the main secretions of our body.

Therapy program:

^• DISPOSAL OF SLAGS AND TOXINS THROUGH BODIES - FILTERS.

Stage 5 - duration 7 days.

Stage goal:

• strengthening the vessel wall by using the frequencies of angioprotectors.

• prevention of trophic ulcers of the lower leg and erysipelas.

Therapy program:

• PREVENTION AND TREATMENT OF TROPHIC ULCERS.

• YELLOW AND INFECTION.

Stage 6 - duration 7 days.

Stage goal: • regulation of the activity of red blood platelets - platelets in order to prevent repeated attacks of thrombophlebitis, which uses an anti-inflammatory frequency complex with the effects of moderate cytostatics.

Therapy program:

• CLEANING BLOOD FROM PARASITES, DAMAGES THE WALLS OF THE VEIN AND FORM THROATS.

• BALANCE BETWEEN COLLECTION OF BLOOD AND WALL OF THE VEIN.

Stage 7 - duration 7 days.

Stage goal:

• strengthening the valve apparatus of the veins with the restoration of the wall and preventing its sclerosis and general thrombosis.

program:

• SUPPORT FOR DETOX - LIVER ACTIVITY.

• PREVENTION OF THROMBOPHLEBITIS.

• ACTIVATION OF DETOX - LIVER ACTIVITY.

EXAMPLE 2

The patient is 54 years old. Female. As a result of measurements, the state of organ hyperfunction was revealed by appropriate lead of the right hand - the right leg (95 cu), and the lower right leg - the left leg (96 cu). The right lead corresponds to the hepatobiliary system, appendix, right kidney, lumbar spine. As a result of the analysis of these measurements, possible pathologies were issued: an inflammatory process in the right side of the abdomen or pelvis. Chronic appendicitis or chronic inflammation of the appendages is possible. The woman confirmed appendicitis. According to the diagnosis, the patient was recommended laparoscopy.

EXAMPLE Z

The patient is 48 years old. The man. All measurements in the normal range except organs corresponding to the right lead are the hepatobiliary system, appendix, right kidney, and lumbar spine. it the lead was in a state of hypofunction ($ 40). Possible diagnosis: a degenerative process in the left half of the body (chest or abdominal cavity).

The patient had peritonitis of the initial stage.

Two treatment complexes with alternation in a month were recommended to the patient. As a result of bioresonance therapy, the patient got rid of the “acute abdomen” state (almost peritonitis) in a rather short period of time and the question of surgical treatment was removed.

The doctor recommended therapeutic treatment.

EXAMPLE 4

Patient 62 years old. The man. Deviation towards hypofunction of organs corresponding to the lower abduction: urogenital organs, rectum, lumbosacral spine (62 cu). Other indicators in the normal range. The equipment showed, as a possible diagnosis, a degenerative process in the pelvic area.

The patient confirmed the treatment of osteoarthrosis.

The doctor recommended the patient the use of a bioresonance therapy device and a set of programs for 3 weeks:

FIRST WEEK

• Arthritis or arthrosis.

• Flat feet.

• Muscular atrophy.

• Muscle cramps.

• Pain in the muscles around the joint.

SECOND WEEK

• Connective tissue - control frequencies.

• Trichinella.

• Schistosome Manson.

• The simplest.

• Trematodes (flatworms) basic.

THIRD WEEK • Toxoplasma.

• Trypanosomes gambiense.

• Chlamydia is common.

GENERAL COURSE - THREE WEEKS.

Three weeks later, a re-diagnosis was made and the indications stabilized at normal values.

The patient noted a significant improvement.

General statistics on the accuracy of diagnoses is about 95 -

97%.

As can be seen from the description of the technical solution, it is new and industrially applicable.

The method of pre-medical diagnosis of a person’s condition according to the skin electrical resistance indices on the Webwellness complex and the method of pre-medical resonance therapy based on the electronic history on the Webwellness complex are modern approaches in medicine and can be used for scientific research in this area as well and in the applied field of medicine - human treatment.

Claims

Formula

1. A method for pre-medical diagnosis of a person’s condition according to skin electrical resistance indicators at the Webwellness complex includes: removing biological signals using sensors to measure skin electrical resistance, registering biological signals in a database, processing registered signals in a database, which is different in that it is preliminarily determined skin area to establish 2 to 6 sensors on biologically active zones, take measurements between biologically active zones (BAS), for which using t combined connection of sensors to the BAZ, changing the polarity of the test signals, combined connect 2-6 electrodes to measure the condition of at least 47 organs and systems of a person for further pre-medical diagnosis of the following systems: - circulatory, - broncho - pulmonary, - digestive, - genitourinary, - endocrine, - immune, - organs of the head, - joints, - biological signals taken are processed, both separately from each sensor, and by synchronizing signals between the sensors, simulating the “electron” process th history "of the survey, with a tolerance of 2 - 3%, and the first-aid diagnosis result (first-aid diagnosis) is formed on the basis of the relation of the following parameters: - total number of measurements in the patient database; - the total number of measurement matches in the patient database; - the number of individual coincidences of measurements with measurements of patients from the base who have a confirmed diagnosis; - error coefficients.

2. The method of pre-medical resonance therapy based on the "electronic medical history" at the "Webwellness" complex includes: - processing the results of pre-medical diagnosis (pre-medical diagnosis); - determination of the frequency range of the pathology according to the results of pre-medical diagnosis (pre-medical diagnosis); -set up the therapeutic effect on the patient of the electromagnetic wave emitter unit of the Webwellness complex, provided that the electromagnetic wave emitter block is capable of emitting a wireless signal (antenna-inductor) and / or using a low-voltage wire signal in the range of 0.1 Hz - 1 MHz; which is characterized in that the therapeutic effect on the patient is produced by creating a frequency resonance between the pathology frequency according to the pre-medical diagnosis and the emitter frequency, while the emitter frequency is fixed in the complex memory for use in a hospital or for individual use, while the resonance error is not more than 0, 03 - 0.06% of the measured value, and the influence time (duration and / or interval) is established on the basis of the "electronic history".