RU2068686C1 - Device for reflex therapy - Google Patents

Abstract

FIELD: medical equipment, is intended for therapeutic action on man's organism with the aim of normalization of functions of organs and systems. SUBSTANCE: the device has a microwave oscillator with a frequency band of 1 to 12 GHz, whose input receives a signal from the frequency control module to provide a wide-band action on biologically active points and reflex zones. An amplitude modulator, electrically controlled to the output of the microwave oscillator. The circuit comprises an infrasonic oscillator with a frequency band of 0.01 to 5 Hz with synthesized square, triangular, parabolic, trapezoid, saw-toothed, bell-shaped, exponential and harmonic signals. A signal synthesizer, electronic switch and amplitude modulator are series-connected to the output of the infrasonic oscillator. The circuit also uses a noise generator, contact pilot electrode with an omega-potential meter, frequency-control modules and a microcontroller. The device features a high efficiency of action due to frequency optimization of microwave signal and modulation of electromagnetic action by infrasonic oscillations at frequencies corresponding to the frequencies of the slowly regulating central nervous system. The effect of organism "adaptation" to the type of action is minimized by "cutting-in" of a random signal in the information action. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to medical equipment, namely electromagnetic therapy, and is intended for therapeutic effects on the human body in order to normalize the functions of organs and systems.

Known devices for reflex therapy affecting biologically active points (BAP) and reflex zones (RE) containing an electromagnetic radiation generator associated with a signal level control device connected to an irradiating contact electrode [1]
However, known devices have limited functionality. They do not realize the possibility of an operative search for optimal therapeutic frequencies, the type of exposure is limited by amplitude pulse modulation, which does not take into account the effect of the organism’s addiction. The devices also lack operational diagnostic communication with the patient during the session.

Closest to the proposed device is a device containing N sources of electromagnetic radiation, each of which consists of a series-connected controlled power source and an EHF generator, at the open end of which a diaphragm switch is installed, while the control input and control output of each controlled power source are connected to the corresponding the outputs and inputs of the control and monitoring unit [2]
A disadvantage of the known device is that it does not allow flexible control of the parameters of electromagnetic effects on BAP and RE of a person and does not diagnose the condition of the patient.

 To increase the efficiency and expand the functionality, a reflex therapy device containing an electromagnetic radiation generator is connected to the control input of the first frequency control module, and an amplitude modulator, a controlled attenuator and N contact irradiators are connected in series to the output of the low-frequency signal generator to the control input which is connected to the output of the second frequency control module, and to the output are series-connected synthesizer forms of si signals, the first input of the electronic switch, the output of which is connected to the control input of the amplitude modulator; a noise generator, the output of which is connected to the second input of the electronic switch; contact search and reference electrodes connected to the inputs of the conductivity meter; a contact lead electrode connected to the input of the omega potential meter; a microcontroller, to the first and second inputs of which the outputs of the conductivity and omega-potential meters are connected, and the outputs of which are in turn connected to the control inputs of the first and second frequency control modules of the waveform synthesizer, electronic switch, controlled attenuator, and upper-level computer.

 To increase the effectiveness of the impact by optimizing therapeutic frequencies, the frequency of the electromagnetic radiation generator is placed in the microwave range 1-12 GHz, and the infra-low frequency generator in the range of 0.01-5 Hz with the synthesized waveform: rectangular, triangular, parabolic, sawtooth, trapezoidal, bell-shaped, exponential and harmonic, a panoramic exposure mode is provided, and contact irradiators are made broadband.

 The introduction of the frequency control module of the microwave electromagnetic radiation generator associated with the microcontroller allows you to provide a panoramic radiation mode in order to generate broadband exposure and search for optimal therapeutic frequencies for a particular patient.

 The amplitude modulator of the microwave signal and the controlled attenuator associated with the microcontroller provide the operational formation on the microwave carrier of a complex information impact on the BAT and RE.

 Broadband microwave contact irradiators allow you to expand the functionality of the device by providing the ability to search for the optimal carrier frequency of the microwave signal.

 The introduction of the generator of the LF signal associated with the second frequency control module, the waveform synthesizer and the electronic switch, as well as the noise generator, which, in turn, are connected to the microcontroller, allow the program formation of a complex information signal in the LF region, which modulates the microwave carrier wave and, thus, forms an informational effect on the patient's body through BAP and RE. The "insertion" of a random signal with a uniform power spectral density in the O-3 Hz band into a sequence of pulses of a special shape minimizes the effect of the organism "getting used" to the type of impact.

 The choice of the frequency range of 0.01-5 Hz and the shape of the LF signal: rectangular, triangular, parabolic, sawtooth, trapezoidal, bell-shaped, exponential and harmonic, allow you to take into account the features of the functioning of the regulatory nervous system.

 The introduction of BAT and RE conductivity meters and brain omega potential associated with the input of the microcontroller provide feedback to the patient during the session according to the state of the slowly regulating central nervous system and allow adjusting and optimizing the parameters of the therapeutic effect.

 The introduction of a microcontroller provides the collection, processing and operational control of the parameters of the synthesized information signal, provides communication with the upper level computers for recording and storing treatment methods, patient records and information display.

 The drawing shows a functional diagram of the device.

 The device comprises a microwave electromagnetic radiation generator 1, connected in series with an amplitude modulator 2, electrically controlled by an attenuator 3, to the output of which N wideband contact irradiators KO 4 are connected. A first frequency control module 5 is connected to the microwave generator 1.

 The device also contains a generator of infralow frequencies INCH 6, connected in series with a synthesizer of the waveform SPS 7 and one of the inputs of the electronic switch 8. The output of the electronic switch 8 is connected to the control input of the amplitude modulator 2. A second frequency control module MUCH 9 is connected to the generator INCH 6, and to the second input of the electronic switch 8 is connected noise generator GSH 10.

 The device contains a conductivity meter IEP 11 BAT and RE, loaded on the search PE 12 and the reference OE 13 contact electrodes, as well as a measure of the brain omega potential IOP 14, connected with the contact head electrode of the GE 15.

 The outputs of the meters IEP 11 and IOP 14 are connected to the first and second information inputs of the microcontroller 16, the outputs of which, in turn, are connected to the control inputs of the first MUCH 5, the generator LF, the second MUCH 9, the signal form synthesizer SPS 7, electronic switch 8, controlled attenuator 3 and top-level computers.

 The microwave generator can be made on the basis of serial generator modules like Ya2R-71, Ya2R-72, Ya2R-73, providing a working band of 1-12 GHz. The generator runs on a microwave transistor or Gunn diode. A ferrite sphere placed in an electromagnet field (developer Krasnodar Research Institute of Radio Measuring Equipment "Rhythm") is used as a tunable contour of the generator.

 Amplitude modulator 2 and electrically controlled attenuator 3 can be made using microstrip technology on p-i-n structures with a attenuation step of 1.3.5 30 dB. (NPO Quartz, Nizhny Novgorod, Radio Measuring Equipment N 8, 1991).

 Broadband contact irradiators are based on segments of a rigid coaxial line with a displaced end of the central conductor and are consistent in the frequency range of the generator. Contact irradiators to localize the irradiation area of the BAT and RE are performed with a diameter of the radiating part of 5.3 mm and 19 mm, respectively.

 The digital frequency generator 6 is executed in the form of a series-connected clock generator, a divider with a fractional variable division coefficient and a variable division coefficient. (For an example of the technical implementation of the divider, see Valikhov V.V. The recalculation decade with a fractional variable division ratio / PTE N 1, 1986, p. 81).

 The INCH 6 generator, together with the SFS 7 waveform synthesizer, digitally implements a stepwise uniform approximation method for piecewise smooth functions: rectangular, triangular, parabolic, trapezoidal, sawtooth, bell-shaped, exponential and harmonic. SPS 7 in this case is a reprogrammable read-only memory device in which all kinds of generated signals are “flashed”. (A specific implementation can be performed on RPZU K573RF4, K573RF6A, with the organization of memory 8k • 8, controlled by address inputs with a binary counter built on the chip K555IE10, K555IE19).

 The second frequency control module MUCH 9 of the LFG generator is a storage device for storing the frequency code and the code of the frequency multiplier in the single-frequency and panoramic modes. In accordance with a given code (for example: a 12-bit binary decimal frequency code and a 2-bit frequency multiplier code), a sequence of approximating pulses of a given frequency is generated at the output of the LF generator. The GSh 10 noise generator makes it possible to implement a fluctuation process with a uniform power spectral density in the frequency band f 3 Hz. It can be implemented digitally on the basis of an M-sequence generator with a notch of the necessary band by a low-pass filter. For principles of constructing M-sequence generators, see for example: L. Varakin, Communication Systems with Noise-Like Signals. M. Radio and Communications, 1985, Ch. 3).

 The meters IEP 11 and IOP 14 can be implemented according to known schemes. (See for example: Titz W. Schenk K. Semiconductor circuitry. Reference manual. Translated from German. M. Mir, 1982).

 The search electrode PE 12 is a probe with a small surface of a spring-loaded contact, which allows you to work with BAP and RE in areas with a complex profile (in the auricle). See, for example, autosvid. USSR N 1635995. The supporting passive electrode OE 13 can be a contact clamp for fastening in the immediate vicinity of the search area BAT and RE, as well as a probe or ring for operation on the patient’s hand.

 The head electrode GE 15 is made of graphite, silver-plated copper or metal alloys in order to minimize polarization of the soft tissues of the head cover. Contact cross section 5 mm. The GE 15 is fastened in the occipital part of the patient’s head using rubber bands. EPSE-01 electrodes and a modified fastening system from commercially available electroencephalographs (NPO REMA in Lviv) can be used.

 The microcontroller includes the following main nodes: a central processor node, communication nodes with meters 11 and 14, communication nodes with the first and second frequency control modules 5 and 9, communication nodes with SPS 7, an electronic switch 8 controlled by an attenuator 3, and a control panel with display and keyboard.

 The central processor unit performs the functions of input and storage of parameters and operating modes of the device, control of the device nodes and processing of measurement results.

 The microcontroller software implements the methodology of the therapeutic effect of specific diseases, the adjustment of the mode of operation of the device during the session.

 The microcontroller provides the display of current information (for example: a change in the potential of the brain) in digital form on the display of the device, and also has a serial interface for communication with a top-level computer and a timer that controls the exposure time. A top-level computer is used to enter and store information in the form of treatment methods, device operation protocols and patient records.

 The microcontroller can be implemented on the basis of the microprocessor КР1821ВМ85 (Intel 8085), the principles of implementation of which are described in detail in the literature: Friedman M. Evens M. Designing systems with microcontrollers: Per. from English M. Mir, 1986, ch. 6.8.

 The device operates as follows. Before conducting a reflexology session, based on preliminary diagnostic results, a search and localization of BAT and RH corresponding to the treatment of a particular type of disease is performed. The search is carried out by the search electrode PE 12, and the position of the BAT and RE is marked with a pencil. In the search process, the reference electrode OE 13 is located as close as possible to the location of the BAT and RE in order to reduce fluctuations in electrical conductivity. The values of the electrical conductivity of the BAT and RE characterizing their condition are measured by IE 11 sequentially in bipolar mode and read by the microcontroller 16. In the occipital part of the patient’s head, the head electrode of GE 15 is strengthened for measurement and control with the help of IOP 14 of the omega potential during the session. The signal from the omega-potential meter IOP 14 is constantly read by the microcontroller 16 for current processing.

 The measured values of the electrical conductivity of BAP and RE and omega potential, together with preliminary diagnostic results, are the initial ones in the choice of methodology and type of informational effect on BAP and RE.

 In accordance with the initial data, the requirements of therapy and treatment methods using the microcontroller 16, a session of reflex exposure is programmed, which includes a set of parameters, form, sequence and duration of reflex exposure to BAP and RE. In a number of BAT and REs (one, two or more), contact irradiators KO 4 are fixed using flexible tripods.

 The formation of the impact is as follows. Microwave generator 1, controlled by the first MUCH 5, generates a signal of a given frequency through an amplitude modulator 2 and a controlled attenuator 3 to the contact irradiators 4. The carrier frequency and level are set by the control signals of the microcontroller 16 to the inputs of the MUCH 5 and the electrically controlled attenuator 3.

 An IF generator 6, controlled by the second MUCH 9, generates a signal at a predetermined frequency supplied to the input of the SPS 7. In SPS 7, one of the waveforms is synthesized: triangular, rectangular, parabolic, trapezoidal, sawtooth, bell-shaped, exponential or harmonic. The signal from the output of the SFS 7 through the electronic switch 8 is fed to the input of the amplitude modulator 2. The frequency value of the LFM generator 6 and the waveform are set by the control signals of the microcontroller 16 to the control inputs of the MUCH 9 and SPS 7.

 The noise generator 10 generates a signal of random amplitude that is input to the electronic switch 8. The electronic switch 8, by the control signal of the microcontroller 16, provides an "insert" of a random signal with a duration of 2-4 s and a period of 30 s into a sequence of pulses from the SPS 7 output to the control amplitude modulator input 2.

 Thus, an information signal is generated at the output of the contact irradiators 4, which is a microwave carrier oscillation of a given level and frequency, modulated by a complex envelope consisting of packs of pulses of a high frequency pulse of a given shape, the intervals between the bursts of which are filled with a random signal.

 The control of the signal parameters during operation is carried out by the microcontroller 16, which according to a given program changes the parameters of the information impact. Control programs are embedded in the ROM of the microcontroller.

 To search for the optimal type of information impact, a scanning mode for discrete generator frequency values with an exposure time of 4 s for microwave and 1 s for LF is provided for each. Optimization is carried out according to the current measurements of the omega potential and periodic monitoring of the electrical conductivity of BAT and RE. The microcontroller provides processing of current measurements and adjustment of the exposure program. Current information (parameter values) is displayed on the display screen of the microcontroller. The scanning mode can be used for diagnostic purposes as characterizing the response of BAP and RE, i.e. of the human body, on a broadband modulated reflex effect.

 Using the interface, the microcontroller communicates with the upper-level computer, which is used to record the treatment session, store patient records, further analyze and process the treatment results.

 Thus, the device has a high impact efficiency due to the optimization of the frequency of the microwave signal and modulation of the electromagnetic effect by infra-low-frequency oscillations with frequencies corresponding to the frequencies of the slowly regulating central nervous system. In the device, using the "insert" into the informational effect of a random signal, the effect of the organism's "getting used" to the type of influence is minimized. The presence of feedback with the patient during the session on measuring the omega potential and periodic monitoring of the electrical conductivity of the BAT and RE allows you to take into account the features of the functioning of the regulatory systems of the body.

 The device has expanded functionality in terms of the formation of a given effect with fixed parameters, broadband exposure and search optimizing effect. The device provides a whole set of modulating signals, the forms of which are most favorable for the regulatory systems of the body. The device also has diagnostic functions by measuring the omega potential of the brain and the electrical conductivity of BAP and RE.

 The device is highly responsive and allows you to programmatically adjust and optimize the information impact during the session. Claim

Claims (1)

 A device for reflexology therapy, comprising an electromagnetic radiation generator, to the control input of which a first frequency control module is connected, and an amplitude modulator, a controlled attenuator and N contact irradiators connected in series, characterized in that an infra-low-frequency signal generator is introduced into it, to the control input of which a second frequency control module is connected, and a waveform synthesizer and an electronic switch, the output of which is connected to dinene with a control input of the amplitude modulator, as well as a noise generator, the output of which is connected to the second input of the electronic switch, contact search and reference (passive) electrodes connected to the inputs of the conductivity meter, a contact head electrode connected to the input of the omega potential meter, a microcontroller, the inputs of which are connected to the outputs of the conductivity and omega-potential meters, and the outputs with the control inputs of the first and second frequency control modules, a waveform synthesizer in, an electronic switch controlled attenuator and the upper-level computer.