RU2123318C1 - Galvanopuncture device - Google Patents

Abstract

FIELD: medical engineering; reflexotherapy; reflexodiagnostics. SUBSTANCE: device has twenty five measuring electrodes and four positive electrodes connected to one another, switches of inputs, calibration, measuring currents and external instruments. Device also includes filter, amplifier, measuring resistor, measuring voltage forming unit, controller unit, and personal computer. Four positive electrodes are secured to patient's limbs, and twenty four measuring electrodes are attached t his body for purpose of examination of bioelectric potentials of twelve meridians from two sides. Device connects one pair of secured electrodes by command coming from personal computer. Twenty fifth electrode is used to check electric potential at acupuncture point. Computer program determines value of external voltage applied to patient. Signal taken off acupuncture points is amplified, and signal interference is rejected. Then signal is numbered and sent to computer. Computer analyzes obtained data. EFFECT: enhanced truth of measurement results. 3 cl, 3 dwg

Description

 The invention relates to medical equipment and can be used to assess the electrophysiological state of acupuncture points in reflexology and reflexology, as well as to search for points.

 A device for electropuncture is known, including a probe electrode and a reference electrode, the conductive surface of which is 25 times the area of the end of the probe electrode. A generator is connected to the latter, generating electrical signals with a high content of harmonic components. A transducer of impedance, measured at the end of the electrode, into frequency is connected to both electrodes. A computer is connected to it, on the screen of which the resistance values are reproduced. The computer is provided with a data analysis program (see US Patent No. 5,339,827, A 61 H 39/02, 1994).

 The disadvantages of the known device are low information content and conditional cross-correlation of data obtained as a result of simultaneous measurements of resistances at various acupuncture points with one pair of electrodes. The reliability of the data reduces the unstable position of the electrodes on the human skin, which increases the amount of interference and introduces significant subjective errors in the measurement.

 The reason for the existing shortcomings is the equipment of the known device with only one pair of electrodes.

 This disadvantage is partially eliminated in another known device for electropuncture (prototype) - a multichannel device of the brand "BITA - 12 - MG" (see V. G. Makats. Fundamentals of acupuncture bioenergy diagnostics. Vinnitsa, 1991, pp. 73-78). The known device is intended for continuous comparative study of the bioelectric activity of individual circuits of a bioobject (or exposure) with data output to a computer, analysis and display of material. The known device comprises one positive and twenty-four measuring electrodes connected in series, an input switch, a filter, an amplifier, an analog-to-digital converter (ADC), and a personal computer. The known device is intended for comparative radiation of the bioelectric activity of twenty-four studied acupuncture zones along the twelve classic meridians on the right and left relative to the umbilical region. In the known device do not use an external current source, and measure the current generated by biological objects.

 A disadvantage of the known device is the low reliability of the measurement results when monitoring the state of acupuncture points during the diagnosis, search or stimulation of points, which reduces the accuracy of diagnosis and the effectiveness of therapy using the known device for electropuncture. The reasons for the low reliability of the results are the weakness of the recorded bioelectric signal and the presence of interference in its measurement.

 The basis of the invention is the task: in the device for electropuncture by incorporating new structural elements into it and creating new connections between them, to increase the reliability of the results of assessing the electrophysiological state of acupuncture points during the diagnosis, search and stimulation of points. This leads to an increase in the accuracy of reflexology and the effectiveness of reflexology using the inventive device for electropuncture.

 The problem is solved in that in the known device for electropuncture, including one positive and twenty-four measuring electrodes, input switch, filter, amplifier, ADC, personal computer, twenty-fifth measuring and second, third, fourth positive electrodes, calibration switches are additionally introduced, measuring currents, external devices, a measuring resistor, a block of a shaper of measuring voltages, a block of a controller with an ADC, while the twenty-fifth measuring electrode is made with the possibility of free movement, the calibration switch is connected with the input to the first measuring electrode and the output with the input of the input switch, the input of the measuring currents switch is connected to the output of the last, and the measuring resistor is connected between the common wire and the connection point of the measuring currents switch with the filter, one of the outputs of the measuring voltage driver unit is connected to a common wire, and four positive electrodes are connected to four others, in addition, the bus there are connected switches of external devices, inputs, measuring currents, an amplifier, a block of a shaper of measuring voltages, a block of a controller, which is also connected by a bus to a personal computer.

 In a preferred embodiment of the device, it is provided that the measuring voltage generator unit comprises four independent measuring voltage sources, a measuring voltage source switch and a group switch, in addition, the measuring voltage sources are connected to a common wire, and the switches are connected to a mode control bus.

 Another feature of the implementation of the inventive device is that the controller unit contains a central processing unit (CPU) connected to each other by an address / data bus, with an ADC as part of it, read-only and random-access memory, a light indication buffer, and an optocoupler isolation device, which is connected, in addition, to a common bus with CPU.

 Between the totality of the above features of the invention and the achieved technical result, there is a causal relationship.

 Introduction to the design of the claimed device of the twenty-fifth measuring electrode allows you to check the accuracy of the information obtained using stationary twenty-four measuring electrodes at an additional twenty-fifth point of acupuncture.

 The use of four positive electrodes in comparison with one (in the prototype) increases the reliability of the results of research on acupuncture points by increasing the information content of the measurements, creating the effect of cross-measurement, which significantly reduces the error of data acquisition. In addition, when working with only one positive electrode, the electrical characteristics of the skin under the electrode change during measurements, which introduces distortions into the results, reducing their reliability. When one of the four positive electrodes is alternately turned on, the skin characteristics under the three electrodes not currently in use have time to recover to the initial state characteristic of the patient. Therefore, the reliability of the data obtained during operation of the inventive device is higher than in the known device with one positive electrode. In addition, a cross-test measurement of the electrical characteristics of the skin by alternately turning on one of the four electrodes, carried out before the start of the procedure, allows you to subtract from the results the noise effect introduced by the electrodes and the electrical circuits of the device, which also increases the reliability of the measurement results. Namely four positive electrodes are used in the claimed device according to the number of human limbs on which they are fixed.

 The measuring resistor, connected in series with the patient, is a divider - a constant additional resistance in the circuit, the value of which is selected depending on the patient’s bioelectric resistance, bringing the claimed device closer to the function performed in relation to the person, to the current source or to the voltage source. Thus, the measuring resistor allows you to keep the electrical characteristics of any patient displayed on the display within the dynamic range, allows you to make the peaks on the graph of changes in indicators sharper, i.e. more different, leveling noise fluctuations, increasing the reliability of the data. In addition, the measuring resistor determines the short circuit current, ensuring the safety of the procedure for the patient.

The increase in the reliability of the measurement results is affected by the operation of the switches in the inventive device:
- the calibration switch allows, before starting work, to eliminate the negative influence of the time and temperature drift of the parameters of electronic components;
- the switch of measuring currents connects the measuring resistor and varies its nominal value;
- the switchboard of external devices allows you to generate commands for connecting external influence devices and, thus, promptly in the program processing the measurement results on a personal computer take into account changes in the measured characteristics when the patient is exposed to electric and other fields of external devices (functional diagnostic devices, laser, ultrasonic sources, EHF radiation, etc.).

 In contrast to the known device (prototype), in which there is no external voltage source and a weak signal generated by the biological object is measured, the measurement accuracy of which is therefore strongly influenced by noise and interference present in the measuring circuit, an external voltage is applied to the acupuncture points in the inventive device using the unit shaper measuring voltages. In this case, the measuring signal is amplified (compared with the prototype) and its characteristics are less affected by the noise and interference present. The measuring voltage generator provides an individual approach to the patient, taking into account the physiological characteristics of each, four gradations of the voltage value (from 1.0 to 10.0 V) affecting the patient and selected using the personal computer program are established. Therefore, the shaper of the measuring voltage with its work increases the reliability of the measurement results obtained during the operation of the inventive device.

 The controller block allows you to increase the reliability of the measurement results, since it synchronizes the moments of connection and disconnection of the measuring and positive electrodes with high accuracy in time, and also buffers the measurement results and exchanges information with a personal computer in synchronous mode, which in turn allows the program in a personal computer use computer resources highly efficiently, and process results in parallel with measurements.

 The connections between the nodes of the claimed device, including those carried out with the help of buses, are constructed in such a way as to ensure the function of the measuring circuit with respect to the patient at a particular time or close to the current source or close to the voltage source, since it is such a circuit operation that allows to increase reliability of measurement results.

 The use of the proposed device allows 1.5 - 2 times to increase the reliability of the obtained measurement results, to continuously monitor the state of acupuncture points both in the search mode and in the diagnostic or treatment modes. The device provides a safe and painless procedure.

 The invention is illustrated by the drawings in FIG. 1 to 3. In FIG. 1 presents a General functional block diagram of the inventive device for acupuncture; in FIG. 2 is a functional block diagram of a block of a shaper of measuring voltages; in FIG. 3 is a functional block diagram of a controller unit.

 The device for electropuncture (Fig. 1) contains twenty-five measuring electrodes 1, which are connected to the input switch 3. Between the first measuring electrode 1 and the input switch 3, a calibration switch 2 is connected. The input of the measuring current switch 4 is connected to the output of the input switch 3.

 The input of the filter 5 is connected to the output of the latter, and the input of the amplifier 6 is connected to its output. A measuring resistor 7 is connected between the filter connection point and the switch of the measuring currents 4 and the common wire. The output of the amplifier 6 is connected to the input of the controller 8. In addition, these two nodes interconnected by the control bus mode 9.

 The block of the shaper of the measuring voltage 10 is connected with four positive electrodes 11 and with a common wire. In addition, the common mode control bus 9 also connects the switches of inputs 3 and measuring currents 4, external devices 12 and the block of the shaper of the measuring voltages 10. The controller unit 8 is connected to the personal computer 13 using the bus 14.

 The block of the shaper of the measuring voltages 10 (Fig. 2) contains four sources of measuring voltages 15 connected to a common wire and with four inputs of the switch of voltage sources 16, the output of which is connected to the input of the switch of groups 17, which has four outputs for connecting four positive electrodes 11. Switches voltage sources 16 and groups 17 are also connected to the control bus modes 9.

 The controller unit 8 (Fig. 3) contains a CPU 18, which includes an ADC 19, connected, in addition, with an amplifier 6. The controller unit also includes an operative 20 and a constant 21 memory devices and a light indication buffer 22, which are connected to each other to the other and to the CPU 18 using the address / data bus 23. The CPU 18 is connected by a common bus 24 to the optocoupler isolation device 25, which through the bus 14 has access to a personal computer 13. The inventive device for electropuncture operates in accordance with a program stored in read-only memory device Property 21 in the controller unit 8 under the control of commands from a personal computer 13. On power-up, the device for electro-puncture is calibrated (without connecting a patient) by measuring the zero bias voltage of the ADC 19 in the short circuit mode of the first measuring electrode 1 with the first positive electrode 11 s using the calibration switch 2 and the noise voltage of the device in idle mode when opening the circuit of the first measuring electrode and input switch 3 using comm Tatorey 2.

 The calibration result is processed in the controller 8 and is reported to the personal computer 13 and is taken into account when processing the measurement results in the operating mode. Upon receipt of the software initialization command from the personal computer 13, the controller 8 tests the communication line with the computer 13 and indicates the readiness of the device for electro-function to the operating mode. Then, twenty-four measuring electrodes are fixed on the patient’s body to monitor the twelve main meridians on the left and right (the twenty-fifth electrode remains loose) and four positive electrodes on the four limbs of the patient. In operating mode, on command from a computer 13, the inventive device connects one of twenty-four measuring electrodes via an input switch 3 and one of four positive electrodes using a group switch 17. The twenty-fifth electrode is included in the work after the main measurements, if necessary, their control or refinement. The principle of operation of the inventive device for electropuncture in terms of electrical measurements at points does not change depending on the choice of point search modes, diagnostics or treatment. Only the choice of the program for setting the mode and data processing changes. One of four measuring voltage sources 15 from the measuring voltage generator unit 10 is automatically selected and connected to the selected and connected positive electrode. The values of the measuring voltage sources 15 are set in advance. Thus, the command from the personal computer 13 determines the magnitude of the voltage applied to the external circuit - the patient, as well as the configuration of the circuit: which pair of electrodes must be connected at a given time. In addition, the same command determines the resistance value of the measuring resistor 7, connected to the measuring circuit through the switch of the measuring currents 4. From the output of the output switch 3, the measuring current taken by one of the twenty-five electrodes is fed to the input of the measuring currents switch 4, from the output of the switch 4 - to the measuring resistor 7, from which the voltage is removed by the filter 5, is filtered out from interference and interference in the measuring circuit. From filter 5, the signal is amplified by amplifier 6 to the value of the ADC working voltage range 19. From the output of amplifier 6, the signal is fed to the input of ADC 19, which is an integral part of CPU 18 in the controller unit 8. Here, the voltage of the incoming signal is digitized, additional digital filtering of interference and interference from AC voltage 220/380 V network. The algorithm of the controller unit 8 allows you to control the operation of the device, process the measurement results, transfer the measured values of the signals to a computer 13 or store the results in a random access memory 20. The signal is transmitted to a personal computer 13 through an optocoupler isolation device 25, which performs galvanic isolation with a personal computer 13, as well as the conversion of signal levels between the computer 13 and the controller unit 8. If necessary, in the diagnostic mode or treatment computer 13 gives a command to connect to the patient through the switch external devices 12 of one of the diagnostic or therapeutic devices. The patient's response to the action of the device is read from acupuncture points in the same manner as described above.

 The operation mode of the device is displayed by the indicators of the light buffer 22.

 In terms of protection against electric shock of a person, the claimed device for electrical puncture is made in accordance with electrical safety class II type H GOST 12.2.025-75.

 In the operation of the device, a personal computer of type 13 IBM is used, connected via an RS-232 interface and an optocoupler isolation device 25 based on a chip type 6 N 136 opt 20.

CPU 18 is based on a INTEL 80 single-chip microcomputer with 196 sq-20;
light indication buffer 22 - type 82 microcircuit with 55 A;
read only memory 21-27F256;
random access memory 20-61C256;
measuring resistor 7-C2-36;
filter 5 and amplifier 6 - based on operational amplifiers of type K 544 UD 2A and K 157 UD 2A; measuring voltage sources - KP142EH12A.

 The elemental base of all the switches (2, 3, 4, 12, 16, 17) of the claimed device is based on microchips of the type K590KH6 and K561KT3.

As measuring electrodes 1 used electrodes of the EPKK-2 brand, manufactured by NPP "REMA" (Lviv) according to TU 64-1-3175-76;
as positive electrodes 11
- electrodes of the electrocardiographic type mE. 443.101.

Claims (3)

 1. A device for electropuncture, comprising one positive and twenty-four measuring electrodes in series, an input switch, a filter, an amplifier, an analog-to-digital converter, a personal computer, characterized in that it further comprises a twenty-fifth measuring and second, third and fourth positive electrodes , calibration switches, measuring currents, external devices, measuring resistor, measuring voltage driver, controller unit, including analog a go-digital converter, while the twenty-fifth measuring electrode is made with the possibility of free movement, the calibration switch is connected with the input to the first measuring electrode, and the output is connected to the input of the input switch, the input of the switch of measuring currents is connected to the output of the last, and the measuring resistor is connected between the common a wire and a connection point of the measuring current switch with a filter, one of the outputs of the measuring voltage former is connected to a common wire, and to four others connected four positive electrode, moreover, the bus control mode switches between a connected external device, inputs, measuring currents, power, voltage measuring unit generator, a controller unit, which is also connected to a personal computer bus.  2. The device according to claim 1, characterized in that the measuring voltage generator unit contains four independent measuring voltage sources, a measuring voltage source switch and a group switch, in addition, the measuring voltage sources are connected to a common wire, and the switches are connected to a mode control bus.  3. The device according to claim 1, characterized in that the controller unit contains a central processing unit connected to each other by an address / data bus with an analog-to-digital converter, operative and read-only memory, a light-indicating buffer, and an optocoupler isolation device connected, in addition to Moreover, a shared bus with a central processing unit.

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