RU2006205C1 - Device for measuring slow changes in skin biologic potentials - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has signal detector I, button "Start", current generator, connected to biologic tissue, timer. Amplifier, digital converter, summer, two memory registers, short pulse former, univibrator, AND gate, indicator, flip-flop and microcomputer are brought into the device additionally. EFFECT: improved precision; increased rate of measurement. 1 dwg

Description

 The invention relates to medicine and can be used in psychophysiological studies.

 Known methods for measuring skin potentials used to assess adaptive systemic reactions and functional conditions of a person.

 However, these methods are not always applicable to measurements of the potentials of biologically active points.

 Methods for measuring the impedance of the surface layer of human skin are also known.

 Measurements are also known using the dynamic current-voltage characteristics of the human body.

 However, the measurement results obtained using these methods do not have high repeatability and are not determined by the magnitude of the voltage used.

 A well-known technique for measuring the biological potentials of the skin, developed by Ishio Nakatani, which determine the electrical conductivity of human skin at certain points. The disadvantage of this technique is that the magnitude of the applied (passed through the patient) current is not methodically determined, this masks the results. In addition, the operation of devices based on the riodoraku technique requires special training, and the results are presented in terms of ancient oriental medicine, which is not always available to modern physicians.

 The closest device adopted for the prototype is a device for measuring the electrical resistance of acupuncture points, containing a signal sensor connected to the input of the voltmeter, a separate timer, an offset source, the Start button. The device is designed to measure the potentials of the skin when using modified riodoraku diagnostics.

 The disadvantages of the prototype are manifested in the fact that a sufficiently large current (at least 10 mA) is passed through the patient to obtain the result, and this leads to a shift in bioenergetic bonds in the cells and a distortion of the results, i.e., to a loss of accuracy. In addition, the biopotential at active points is modulated by noise and electric fields around the patient, so a single measurement carries another component of the measurement error. To obtain reliable results, the operator has to perform additional processing of the received information.

 The purpose of the invention is improving accuracy, accelerating measurements and automating the receipt of results.

 This goal is achieved by the fact that an amplifier, a digital converter, an adder, two memory registers, a counter are introduced into the device for measuring slow changes in biological potentials, containing a signal sensor, a Start button, a current generator connected to biological tissue, and a timer , a shaper of short pulses, a single vibrator, an And element, an indicator, a trigger, and a microcomputer, while the signal sensor connected to the biological tissue by the input is connected by an output through an amplifier connected in series, an analog-to-digital converter The indexer, the adder with the inputs of two memory registers, the outputs of the first memory register are connected to the second inputs of the adder, and the outputs of the second memory register are connected to the information inputs of the microcomputer, the Start button is connected to the timer input, the output of which is connected to the input of the current generator and the input shorter pulses, the output of which is connected to the installation inputs of the trigger and the counter, the output of which is connected to the first input of the element And the second installation input of the trigger, the first output of which is connected to the indicator and the “Start” input of the analog-to-digital converter, the output of the “End of conversion” signal is connected to the counting input of the counter, the “Record” input of the first memory register and the second input of the And element, the output of which is connected to the “Record” input of the second memory register, and the second the trigger output is connected to the first control input of the microcomputer directly, and to the second control input through a single-shot.

 Thus, an expert system was created, with the help of which it was possible to combine the advantages of traditional European and ancient Eastern medicine, the doctrine of the body, as the interaction of organs and systems, on the one hand, and the bioenergetic connection between man and nature, on the other.

 It is enough for the operator to touch the signal sensor to 24 special points located on the hands and feet. A program containing an expert system entered into the computer instantly processes the measurement results, if necessary, asks the patient questions and prints out a slightly modified Nakatani diagram, as well as a table of the status of the patient’s main organs and systems in the form familiar to European physicians. Examination time does not exceed 5 minutes.

 The features of this diagnostic method are that deviations from the norm are fixed at the level of functional disorders long before the appearance of organic changes in the organs, which helps to prevent further development of the disease, as well as the possibility of revealing hidden pathological processes.

 The high efficiency and accuracy of the diagnosis of the proposed reflexodiagnostic complex makes it indispensable for mass periodic examination of people in medical and preventive institutions, in the workplace, at the place of residence and rest. This will make it possible to identify at the earliest yet reversible stage the beginning of the development of cardiovascular diseases, allergic reactions, diseases and disorders in the internal organs and systems of the examined patients.

 The main differences from the known methods are that the bias current passed through the patient does not exceed 100 nA, this does not cause any reactions at the cellular level. In addition, the proposed device does not measure the resistance of points, as it should be according to the Nakatani method, but measures potentials (approximately 40-400 mV) at points relative to a grounded body. To exclude the influence of modulations and errors, multiple (from 10 to 100 times) measurement is performed.

 Applicants do not know the specified set of features of the claimed device. On this basis, they believe that the proposal meets the criteria of the invention: novelty, significant differences and positive effect.

 The drawing shows a block diagram of a device.

 The device comprises a signal sensor 1, made in the form of a tube partially filled with physiological solution, a rubber bulb 2 is mounted on one end of the tube, the second end is supported by living biological tissue 3. The physiological saline in the tube contacts an electrical conductor through which it is connected to the input of the amplifier 4, the output of which is connected to the input of an analog-to-digital converter (ADC) 5. The information outputs of the ADC 5 are connected to the first inputs of the adder 6, the outputs of which are parallel connected to the inputs of the first 7 and orogo 8 registers. The information outputs of the first register 7 are connected to the second inputs of the adder 6, and the outputs of the second register 8 are connected to the information outputs of the microcomputer 9. Button 10 "Start" is connected to the input "Start" of the timer 11, the output of which is through the shaper 12 short pulses (FCI) connected to the input S of the trigger 13, the input R of which is connected to the output of the counter 14 and through the element And 15 to the input C of the second register 8. The direct output of the trigger 13 is connected to the first control input of the microcomputer 9 through the one-shot 16, the inverse output of the trigger 13 is connected with indicator input ora 17 and the ADC start input 5. The signal output end of the “KP” conversion of the ADC 5 is connected to the counting input of the counter 14, the second input of the element And 15 and the input "C" of the first register 7. In addition, the input of the timer 11 is connected to the input of the source 18 power supply, the output of which is connected to the patient’s body.

 The device operates as follows.

 The sensor 1 of the signal is installed in a strictly defined sequence on biologically active points (BAP) of the patient’s skin, which is pre-grounded and connected (through the mouth) to the negative pole of the power source 18. After pressing the “Start” button 10, a timer 11 is activated, which sets the power mode from block 18, and sets the trigger 13 and counter 14 to the initial position through the short pulse generator 12. The trigger 13 starts the ADC 5 at the zero level and turns on the indicator LED 17, simultaneously from trigger 13 on the computer 9 receives two control signals, one of which is fed to the input of the computer 9 continuously, while the timer is on and the measurement process is in progress, and the second signal records the process of starting the measurement. Thus, after pressing the “Start” button 10, the signal from the sensor 1 enters through the amplifier 4 to the input of the ADC 5. As soon as the ADC 5 completes the formation of the result, a signal appears at its output “UP” (end of conversion), which is read by the counter 14 and recorded as a result of the first measurement in register 7. Register 7 together with the adder 6 forms a known drive of average value. After 10, 100, or any other selected number of measurements, the obtained average number is written into memory register 8, which is “notified" to the computer 9 at the specified edge of the signal from the single-vibrator. As soon as counter 14 counts down the necessary number of measurements taken, trigger 13 is reset, the ADC 5 stops working , the indicator 17 turns off, the signal to the second control input of the computer 9 stops, which fixes the end of the first measurement. As soon as the timer 11 (after 40 seconds after pressing the "Start" button 10) stops its work, the trigger 13 again starts the trigger 13 through the FCI 12 and the measurement cycle is repeated.

 At each point, two multiple measurements are taken, separated in time by 40 s, which makes it possible to evaluate the dynamics of measurements of the measured potential.

 At the inputs of the computer 9 receives digital and analog information that allows you to distinguish 48 measurements at 24 points. The sequence of measurement points is determined by the method.

So, we have developed a comprehensive device that allows you to diagnose in mass, clinical and extreme studies. It makes it possible to produce:
- removal and input of biopotentials of 12 symmetric points - representatives of organs in a semi-automatic mode;
- assessment of the status of each of the 12 functional systems of the body (lungs, pericardium, heart, spleen, pancreas, liver, kidneys, stomach, small intestine, large intestine, gall bladder, bladder), and the list of controlled systems can be expanded with an increase in the number measured points;
- a general assessment of the condition of the body and the prognosis of the development of the disease;
- development of prognostic criteria for assessing the vital activity of an organism;
- assessment of the effectiveness of the use of medical, therapeutic and other methods of treatment;
- registration of changes in the state of the body under the influence of external factors: the result of fatigue or stress, the consequence of ultrasound, LASER, X-RAY, etc. ;
- determination of the biorhythmic activity of the functional systems of the body, due to external factors (time, date, season, geographical latitude);
- get a visual display of the general condition of the body and its functional systems in relation to the physiological norm.

 Measurement data are sent to the computer in semi-automatic mode.

The doctor in interactive mode receives the following visual information with a certain sequence of measurements:
- a graph of the functional systems of the patient,
- information about the biological rhythms of functional systems,
- tables of statistical processing of measurement data,
- recommendations for a doctor’s opinion.

 The process of examining a person is non-invasive, environmentally friendly, and the examination time is only 5 minutes.

 Novelty.

The method of information retrieval, providing a high correlation of indicators with the results of biochemical and laboratory studies (pH, pCO ₂ , pO ₂ ), electrolytes, cellular composition of the blood, etc.).

 Electrical load adequate to the energy of physiological processes of the cell.

 Symmetry of measurements.

 Special software based on a large clinical and experimental (physiological) material.

 Approbation.

 The technique and the device have been tested at the Leningrad Research Institute of Emergency Medicine. I. I. Janelizde, at the departments of military training, propaedeutics, psychiatry S. M. Kirov, Ivanovo Medical Institute, Leningrad Research Institute of Occupational Health and Occupational Diseases.

The results show that the device allows you to objectively assess the functional state of the human body with the aim of:
- medical examination of the population;
- assessing the physical performance and fatigue of a person and the forecast of his further condition;
- assessing the severity of intoxication of the body, predicting the effectiveness of antidote therapy and active methods of detoxification of the body;
- continuous monitoring of the patient's condition and treatment effectiveness.

 A computer (micro-computer) can be used standard, for example DVK-2M, while to control it uses a standard matching board I-10 and the address of the control signals 177440, 177442, 177444.

 For comparative characteristics of measurement methods, see the illustrations.

 The concentration of ions in body fluids is 166 and mol / L.

 When applying the impact signal at the level of the proposed method P air. = 1 nVA) no side effects (for example, loosening of the cell membrane, increase in conductivity) do not occur, and physiological, neuro-humoral and volume changes in the cells do not occur.

 The choice of measurement time for each point, equal to 40 s, is due to the fact that the practical circulation time is about 30-40 s. This determines the dynamics of changes in electrophysical parameters at acupuncture points (due to changes in blood composition).

 In practice, the parameter of liquid media — the concentration-kinetic potential (CSI potential) —is recorded.

 For practical measurements of the CSI potential, the measurement time, location (geographical location), the state of physiological saline, and the state of the electrodes are taken into account, therefore, compensation measures are taken before each measurement or these parameters are taken into account by introducing amendments to the microcomputer. The magnitude of the amendments and their dynamics in time and space are given in the technical readout of the NGO "Granite" (Leningrad), the theme is "Zodiac".

 The CSI potential is the electrical manifestation of conformational changes in the atomic-molecular structures of liquid media under the influence of applied energy. Energy can be of any kind: electromagnetic, electrical, magnetic, thermal, chemical, mechanical and gravitational.

 Any conformational changes in atomic-molecular structures occur at the level of changes in bond energy (chemical) and are accompanied by the emission (absorption) of photons with an energy adequate to the change in binding energy.

 This means that all types of energy interaction can be expressed through the energy of photons of a certain frequency or wavelength of electromagnetic radiation.

 Thus, by registering the dynamics of the CSI potential, we can evaluate the energy exchange activity in a liquid medium, and, knowing its composition, “see” the conformational changes in its structures.

 Measuring the CSI potential at biologically active points (BAP) - representatives of internal organs, we evaluate the activity of biochemical processes in these organs. This allows you to give a comprehensive and differential assessment of the correct or incorrect functioning of the whole organism and the corresponding organs (more precisely - FS). (56) Copyright certificate of the USSR N 1277965, cl. A 61 B 5/00, 1981.

Claims (1)

 DEVICE FOR MEASURING SLOW CHANGES TO SKIN'S BIOLOGICAL POTENTIALS, comprising a signal sensor, a Start button, a current generator connected to biological tissue, and a timer, characterized in that a series-connected amplifier, an analog-to-digital converter, an adder connected in parallel to the first and the second memory registers and microcomputers, also connected in series with a counter, a trigger with a shaper of short pulses connected to its installation input and an indicator connected with an output via a button "Start" with an earth bus and timer input, the output of which is connected to the current generator and the input of the short pulse shaper, the output of which is connected to the installation inputs of the counter and the first memory register, the information outputs of which are connected to the group of inputs of the adder, in addition, the element And, the first input is connected to the counter output, and the second input is to the “End of conversion” output of the analog-to-digital converter, the counting input of the counter and the “Record” input of the first memory register, and the output is to the “Record” input of the second a memory register, and a one-shot, an input connected to the second output of the trigger and the first control input of the microcomputer, and the output to the second control input of the microcomputer, the third control input of which is connected to the timer output.

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