RU2071757C1 - Device for carrying out reflexotherapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has unit for controlling biologically active points with light indication member, photopuncture unit, modulation unit which outlet is connected to control input of electropuncture unit and the first input of optic radiation source control unit. The device has active and passive electrodes attached through switching unit to biologically active point control unit input and electropuncture unit output. The biologically active point control unit has means for determining biologically active point states from measurement of electric conductivity and introducing optic radiation source switch-on inhibition signal when the mentioned value is out of pathologic range. Unit for graduating the optic tract is also available. EFFECT: enhanced effectiveness of treatment and diagnosing. 5 cl, 1 dwg

Description

 The invention relates to medical equipment, in particular to reflexology, and can be used to diagnose the condition of acupuncture points and other biologically active points (BAP) and influence on them in accordance with the method of R. Voll.

 In the practice of acupuncture in recent years, non-invasive methods of influencing acupuncture points and biologically active points have become widespread. They allow you to control the state of the human body, providing a minimal and gentle effect, achieving in some cases high results in the treatment and prevention of diseases. Such factors primarily include exposure to electric current and electromagnetic radiation in the optical wavelength range. This is primarily due to the availability of hardware implementation using a modern elemental base. Additional opportunities for reflexology are provided by conducting an etiological diagnosis and drug test according to the R. Voll method, as well as the kind of exposure to radiation in the optical wavelength range, which has received the name of laser therapy.

 A typical device for laser reflexology (known as "akupLas") [1] contains a BAP search unit, a laser emitter and a laser radiation modulator. The radiation is introduced into the acupuncture point using a probe, the latter also functions as a search electrode (BAP is recorded by a sharp drop in conductivity). The probe is an electrically conductive hollow tip, inside of which is placed a fiber connected to the laser. The device allows simultaneously with exposure to laser radiation to measure the electrical conductivity of the circuit "probe BAT on the patient’s body passive electrode" and to control the degree of laser exposure to the BAP. However, this invention does not provide for exposure to any other physical factor, which makes the device insufficiently functional.

 The combination of the impact on the BAP of optical radiation and electric current has wide capabilities. A device for implementing this effect contains three blocks: a BAT search unit for changing the electrical conductivity of the circuit, which is usually indicated by light or sound signals, an electric voltage generator unit with adjustable parameters for conducting electric puncture. The third block is a source of optical radiation, including laser. However, the implementation diagram of each of the blocks in the description text is not given, since the subject of the invention is the constructive implementation of the probe itself.

 According to the above principle, another analogue of the invention is built. See the international application [3]. The device comprises a BAT search unit with a threshold circuit with an audible alarm, a pulse generator for electropuncture with a current regulator and a switch. The switch allows you to use the same electrode for both search and electropuncture. An IR source is built into the active electrode; it provides an effective localization of light and thermal effects on the BAT. However, this invention does not provide for the objectification of the state of BAP during exposure to physical factors, including optical radiation, which narrows the capabilities of the device.

 The closest in technical essence and the achieved result is a device for reflexology, see [4] It includes, like the previous analogues, a BAT search unit with light indication, an electrotherapy unit and an optical radiation exposure unit. The capabilities of the device are expanded thanks to the presence of a modulator and programmable timer. They provide the sequence of therapy prescribed by the doctor for the complex simultaneous or alternating effect on the BAP of electrical impulses of the required shape and duration, as well as concentrated optical radiation with different modulation frequencies. The invention does not specify the coherence of the radiation used, but this feature is not reflected in the construction of the device circuit, since the control of both a semiconductor laser and an incoherent radiation LED is basically the same.

 The technical result of the invention is the creation of a device that allows you to search for BAT, exposure to them by pulses of electric current and optical radiation both separately and simultaneously, while monitoring the effectiveness of the impact. The technical result of the invention is also a controlled exposure to optical radiation only on such BAP, the parameters of which lie in the field of pathology. An additional technical result consists in the possibility of calibrating the intensity of optical radiation in the process of implementing light puncture using internal and external photodetectors.

 The technical result is ensured by the fact that the device for reflexology contains a biologically active points control unit (BAP) with light indication, an electropuncture unit, an optical puncture unit containing an optical radiation source with a control unit and a timer, a modulator whose output is connected to the control input of the electropuncture unit and the first the input of the control unit of the optical radiation source. The device includes active and passive electrodes connected through a switch to the input of the BAT control unit and the output of the electropuncture unit.

 The BAT control unit is equipped with means for determining the state of the BAT by the value of electrical conductivity and prohibiting the inclusion of an optical radiation source when the values of the specified value are out of the pathology range and contains: a current generator and a measuring device connected in series, the first and second comparators connected by their inputs are connected to the connection point the outputs of which are connected to the adder, in parallel with which the first and second light indicators are connected, the second conclusions of which and the second glue ma measuring device connected to the neutral bus, wherein the output of the adder is connected to the second input of the control unit the source of optical radiation and the output optical radiation source is optically aligned with the working surface of the active electrode end.

 The light-puncturing unit may contain the first and second photodetectors connected to the optical radiation control unit, the output of which is connected to the indicator, the first photodetector installed at the output of the optical radiation source, and the second photodetector with the possibility of bringing it into contact with the working light-emitting surface of the end of the active electrode. As a source of optical radiation, a laser diode can be used.

 The BAT control unit can be equipped with an electrode for conducting a medical test, made in the form of a plate made of brass and galvanically connected to the terminal of the measuring device.

 The device may include a unit for displaying information on the dynamics of changes in the BAT conductivity, including an analog-to-digital converter, the input of which is connected to a potentiometer engine connected in parallel with the measuring device, and the output through the interface to a PC.

 The invention is illustrated in the drawing, which shows a functional diagram of the described device for reflexology.

 The device for reflexology contains a BAT control unit 1, an electropuncture unit 2 and a light puncture unit 3, an active 4 and a passive 5 electrodes. The electrodes are connected to blocks 1 and 2 through the switch 6 "diagnostics-therapy".

 The BAT control unit 1 comprises a current generator 7, a measuring device 8, preferably a pointer-type galvanometer, which is calibrated in units of electrical conductivity. This scheme allows you to determine the state of BAT by electrical conductivity according to the method of R. Voll.

 The threshold unit 9 consists of two parallel connected comparators 10, 11 with different thresholds and two indicator lights 12 and 13 connected in series with the specified comparators. The outputs of the comparators 10 and 11 are connected to the inputs of the adder 14, designed to generate a control signal for automatically rejecting the source of optical radiation 15 in the case when the parameters of the BAT are brought to normal. This circuit blocks the inclusion of the source 15, respectively, in the case when the parameters of the BAT are normal.

 The light puncture unit 3, depending on the type of optical radiation source 15 (LED or laser diode), allows both laser and conventional light puncture to be used for stimulation and local heating of the BAP. The radiation to the active electrode 4 from the source 15 arrives through the fiber optic cable 16 similar to that implemented in [3, 4]. To determine the radiation dose, the light puncture unit 3 contains internal and external photodetectors 17, 18 connected to the inputs of the optical radiation intensity control unit 19 with indicator 20. A photodetector 17 is placed near the source 15 and registers the radiation intensity at the input to the cable 16, respectively. If a laser diode is used as the radiation source, the photodetector is placed opposite the bright face of its resonator. The photodetector 18 is located on the outer surface of the device and is designed to determine the radiation intensity at the output of the light-emitting working surface of the end face 21 of the active electrode.

 The optical radiation source control unit 22 is a power supply unit with a current regulator (the radiation intensity is changed by the current value), a timer 23 and a key element 24, the control input of which is connected to the first output of the modulator 25.

The second output of the modulator 25 is connected to the control input of the unit 2 of the electropuncture. The output of block 2 is connected to the input of the switch 6 "diagnostics-therapy". The electropuncture unit in composition may be similar to that described in the source [6]
The modulator 25 is designed to generate control signals for blocks 2 and 22 in the case of simultaneous exposure to light and electrical points. The modulator provides temporary synchronization of pulses of electropuncture and optical radiation, as well as the "imposition" of optical radiation on the positive or negative phase of the pulse of electropuncture. The modulator circuit can be implemented according to well-known principles (see, for example, V.T. Frolkin, L.N. Popov Pulse devices, M. Sov. Radio, 1989).

 A personal computer can be used to visualize the dynamics of changes in the BAT electrical conductivity caused by physical factors, in addition to means 8, 12 and 13. For this, the signal from the resistor 26 through the analog-to-digital Converter 27 is fed to the interface 28 (for example, type RC 232) of the PC 29.

 For conducting a medical test and etiological diagnostics according to the R. Voll method, the device is equipped with a plate 30 made of brass galvanically connected to the terminal of the measuring device 8. The plate is designed to place the test drug on it.

 As sources of optical radiation, semiconductor lasers or LEDs can be used. The radiation wavelength range is 0.65 - 0.9 μm, P up to 30 mW. These emitters, including laser emitters based on solid solutions of gallium aluminum and arsenic, provide both pulsed and continuous exposure.

 As photodetectors 17 and 18, photodiodes or photo-resistances of various brands can be used, in this case, the optical radiation intensity control unit 19 is a measuring amplifier, the output of which is connected to a conventional dial microammeter.

 The device operates as follows.

 The switch 6 "diagnostics-therapy" is set to the position "diagnostics". The electrodes 4 and 5 are short-circuited and, by adjusting the current generator 7, set on the measuring device 8 a value equal to 100 divisions of the scale (taken for the convenience of comparability of the results according to the R. Voll method).

 Then they start examining the patient, searching for BAT, which is diagnosed by the simultaneous lighting of indicators 12 and 13. In the case when the BAT condition indicates the presence of pathology (electrical conductivity in the range of 60–80 div. Scales), electrical or light puncture is performed. The doctor sets the necessary output parameters of the unit 2 of the electro-puncture or (and) block 3 of the light-puncture. In this case, by adjusting the parameters of the frequency modulator 25, the period and the delay time, the desired sequence of supply of the indicated physical influences is established. We found that the greatest efficiency, the reduction of the exposure time for the patient, is provided by the supply of optical radiation in the interval between the end of the negative part of the pulse and the positive part of the next pulse of the electropuncture. This is illustrated by diagrams: position 31 denotes the shape of the pulses of the electropuncture, positions 32 and 33 the shape of the pulses of optical radiation for different pulse durations.

 Electropuncture effect is carried out in the "therapy" position of the switch 6 "diagnostics-therapy". Since the supply of electrical pulses is carried out through the same electrodes 4, 5, the impact efficiency is monitored only after the switch is switched to the "diagnostics" position. However, when light puncture is used as the physical factor of influence on the BAP, simultaneous observation of the result of the effect according to the testimony of the measuring device is possible 8. A criterion for the effectiveness of such an effect is, for example, the rate of arrival of the arrow in the range characterizing "health", i.e. in the testimony of 40 to 60 cases. scales. A distinctive feature of the invention is the implementation of the prohibition scheme on the effect of optical radiation in the state of BAP "health". Automatic shutdown of the source of optical radiation 15 upon reaching the normal conductivity of the BAT less than 60 div. scales allows to exclude the ineffective, and in some cases the harmful effects of radiation, especially laser, on the patient's body.

 It is convenient to observe the dynamics of the process of influencing the BAT using the PC display, which displays the coordinates of the BAT and the parameters measured at these points in graphical or mnemonic form.

 The invention satisfies the condition of patentability "novelty", since the applicant does not know the totality of the features of the invention from the prior art. The invention satisfies the condition of "industrial applicability", because the presented description allows you to implement the device on a modern elemental base and produce it in small batches. The invention satisfies the condition of "inventive step", since the technical result achieved is the provision of multifunctionality with the introduction of BAP protection in its normal state from exposure to optical radiation, including laser radiation, obviously does not follow from the state of the art available to the applicant.

Claims (5)

 1. Device for reflexology, containing a control unit for biologically active points (BAP) with light indication, an electric puncture unit, a light puncture unit containing an optical radiation source with a control unit and a timer, a modulator whose output is connected to the control input of the electropuncture unit and the first input of the control unit optical radiation source, active and passive electrodes connected through a switch to the input of the BAT control unit and the output of the electropuncture unit, characterized in that the BA control unit equipped with a circuit for determining the state of the BAT by the value of electrical conductivity and generating a prohibition signal to turn on the optical radiation source when the values of the specified value are out of the pathology range containing the first and second comparators, the outputs of which are connected to the adder, and the inputs are connected to the connection point of the current generator and measuring unit control connected in series, while the first and second light indicators are connected in parallel with the first and second comparators, the second in water, and which second terminal is connected to the measuring instrument neutral bus, wherein the output of the adder is connected to a second input of the optical radiation source control unit, and the output of the optical radiation source is optically aligned with the working surface of the active electrode end. 2. The device according to p. 1, characterized in that the light puncture unit comprises a first and a second photodetector connected to an optical radiation control unit, the output of which is connected to an indicator, the first photodetector installed at the output of the optical radiation source, and the second photodetector
with the possibility of bringing it into contact with the working light-emitting surface of the end of the active electrode.  3. The device according to claim 1 or 2, characterized in that a laser diode is used as a source of optical radiation.  4. The device according to p. 1, or 2, or 3, characterized in that the BAT control unit is equipped with an electrode for conducting a medical test, made in the form of a plate made of brass, and galvanically connected to the terminal of the measuring device.  5. The device according to p. 1 or 2, or 3, or 4, characterized in that the device comprises a unit for displaying information on the dynamics of changes in the conductivity of the BAT, including an analog-to-digital converter, the input of which is connected to a potentiometer engine connected in parallel with the measuring device, and the output is connected via an interface to a PC.