RU2070406C1 - Adaptive bioresonance therapy device - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device can be applied to registration and analysis of electrical parameters of the biologically active points (BAP) and biologically active zones of the skin (BAZ). The device allows to estimate the condition of health and select individual treatment in cases when the traditional therapy cannot be successful or too costly and time-consuming. The device has a unit controlling and adjusting the resonance characteristics, a unit that records the physiological and pathological electromagnetic oscillations, and a storage unit for the electromagnetic field characteristics with BAP and BAZ registered at the user's will. EFFECT: shorter inspection time; higher diagnosis reliability; more effective therapy. 1 dwg

Description

 The invention relates to medical equipment and can be used to register and analyze the electrical parameters of biologically active points (BAP) and biologically active zones (BAS) of the skin, assess the health status and select individual means of exposure to the body in cases where therapeutic success is achieved by traditional methods Impossible or time-consuming and other expenses.

 A known device for diagnosing electrical conductivity of the skin and selecting means of influencing the body [1] containing a test circuit with a block of electrodes, the signal from which is fed to a conductivity meter, the level of which is recorded by a measuring device, as well as means for selecting and storing individual therapeutic agents for each patient to the body in the form of a controlled memory unit and a software-recording unit.

 A device for conducting biological diagnostics and medical test [2] containing a test circuit with a block of electrodes, a measuring device, a therapeutic effect unit, a storage unit, a control unit and a signal switch.

 A bioresonance therapy device [3] was chosen as a prototype [3] the operation of which is based on the fact that with the help of contact electrodes electromagnetic information is read from the patient’s body and enters into a device in which electromagnetic information is divided into physiological and pathological parts. The pathological part of the signal is inverted and returned to the patient in the form of medical information. This inverse correspondence of the pathological signal is perceived by the receptors and compensates for the pathological energy. The device contains a block of electrodes, a filter, inverters, amplifier-attenuators and a switch, a computer interface unit, a measuring device.

 The disadvantages of the known devices is the relatively long examination time and the low reliability of the diagnosis and effectiveness of therapy.

 The technical result consists in the fact that the electromagnetic information read from the patient’s body is processed in the device, converted into medical information and returned to the patient, and is achieved due to the fact that the device has adaptive bioresonance therapy. containing a block of electrodes connected to an analog signal switchboard, a control unit and a computer interface, an amplifier and a measuring device, the following are introduced: a control unit and adjustment of resonant characteristics, a unit for recording physiological and pathological fluctuations of the electromagnetic field, a storage unit for the characteristics of the fluctuations of the electromagnetic field with BAT and BAZ , an analog-to-digital converter, a buffer register and three control registers, while the input of the control unit and adjusting the resonant characteristics is connected to the corresponding the corresponding analogue signal switch output, the output of the control unit and adjusting the resonant characteristics is connected to the corresponding input of the analog signal switch, the other output of the latter is connected to the input of the measuring signal amplifier, the output of which is connected to the input of the measuring device and to the input of the analog-to-digital converter, and the other input of the analog switch signal is connected to the output of the reference voltage generator, another output of the latter is connected to the second input of the measuring device, The output output of the control unit and the adjustment of the resonance characteristics is connected to the control input of the unit for recording physiological and pathological vibrations of the electromagnetic field, the information output of the latter is connected to the information input of the unit for storing the characteristics of the oscillations, the input / output of the information bus of the control unit and the computer interface is connected to the inputs of the register information bus control: analog signal switch, physiological and pathological oscillation registration unit, electromagnetic th field, the oscillation characteristics of the storage unit, and output buffer register analog-converter; the control outputs of the control unit and the computer interface are connected to the corresponding control inputs of the registers: a switch for analog signals, a unit for recording physiological and pathological oscillations of the electromagnetic field, a unit for storing the characteristics of the oscillations, and an analog-to-digital converter; the outputs of the registers: switchboard of analog signals, a unit for recording physiological and pathological vibrations of an electromagnetic field, a unit for storing vibration characteristics are connected to the corresponding information inputs of a switch for analogue signals, a unit for recording physiological and pathological vibrations of an electromagnetic field, a unit for storing characteristics of vibrations, the information output of an analog-to-digital converter is connected to information input buffer register; the input / output of the control unit and the interface with the computer is designed to connect to a computer.

 In FIG. 1 is a structural diagram of an adaptive bioresonance therapy device.

 The device comprises: block 1 of electrodes, switch 2 analog signals with digital control, block 3 control and adjustment of resonant characteristics, block 4 registration of physiological and pathological vibrations of the electromagnetic field, block 5 storage of characteristics of the oscillations with BAT and BAZ, analog-to-digital Converter 6, control registers 7, 8 and 9, a buffer register 10, a computer interface control unit 11, an amplifier 12 of the measurement signals, a reference voltage generator 13, a measuring device 14.

 The adaptive bioresonance therapy device (Fig. 1) contains: a control register 7 of a switch 2 of analog signals, a control register 8 of a block 3 for registering physiological and pathological oscillations of an electromagnetic field, a control register 9 of a block 5 for storing oscillation characteristics with a BAT and a BAZ, a buffer register 10 of analog a digital converter, a computer interface control unit 11, the input / output of which is connected to the computer via a communication line 15, and also connected by an information bus 16 with the above registers: 7, 8, 9, and 10; and control signals: 17 s 7, 18 s 8, 19 s 9 and 20 s 10; the information outputs of the registers are connected to the control inputs of the blocks: 7 s 2, 8 s 3, 9 s 5; the information output of the analog-to-digital Converter 6 is connected to the information input of the buffer register 10; the input / output of the analogue signal switch 2 is connected by a communication line 21 to the electrode unit 1, and the corresponding output of the analogue signal switch 2 by means of a communication line 22 is connected to the corresponding input of the control and adjustment unit 3 of the resonant characteristics, the corresponding output of the latter is connected via the communication line 23 to the corresponding the input of the switch 2 analog signals, the other input of the latter through the communication line 25 is connected to one of the output of the block 13 of the reference voltage, the other output on the communication line 30 s connected to one of the inputs of the measuring device 14; another output, the last one, of the switch 2 of the analog signals via communication line 24 is connected to the input of the amplifier 12 of the measurement signals, the corresponding output of the latter is connected via communication line 28 to the input of the analog-to-digital converter 6, the other output of the amplifier 12 of the measurement signals is connected via the communication line 29 s measuring device 14; the control input / output of the unit 3 for controlling and adjusting the resonant characteristics is connected via a communication line 26 to the control input / output of a unit 4 for recording physiological and pathological oscillations of the electromagnetic field, the information output of which is connected via the communication line 27 to the information input / output of the unit 5 for storing vibration characteristics with BAT and BAZ.

 The adaptive bioresonance therapy device operates in the following main modes: taking indications in the BAP and BAS and diagnostics; adaptive bioresonance therapy for BAP and BAS; recording electronic copies from BAT and BAZ to a secondary medium.

 All operating modes of the device are set by entering control information into the control unit and combining it with a computer 11 (Fig. 1), generated by software on a computer and then distributing it among blocks 2, 3 and 5. Initially, blocks 2, 3 and 5 are set to their initial state by entering into the control registers of the blocks of the necessary initial information by sequentially generating control signals: 17 for the switch 2 analog signals, 18 for the block 3 of the control and adjustment of the resonance characteristics, 19 for the block 5 of the storage of characteristics d with BAT and BAZ if there are corresponding control words on the information bus 16 for each of blocks 2,3 and 5. In the initial state, the switch 2 of the analog signals are disconnected from the block 1 of the electrodes, and the blocks 3, 12 and 13 from the switch 2 of the analog signals, those. from communication lines with the switch 22, 23 and 24, 25, respectively.

 In the BAT, BAZ and diagnostic mode, the electrical conductivity of the skin with the BAT and BAZ is measured, for which the necessary pairs of electrodes and the readings are selected depending on the measurement methods used. In particular, the measurement can be carried out with direct current of different polarity and / or magnitude, as well as in a dynamic mode on transients.

 In the mode of taking readings in the BAT and BAZ and diagnostics in the adaptive bioresonance therapy device, the selected pair of electrodes is connected from the electrode unit 1 via the analogue switch 2 to the amplifier 12 of the measurement signals on the communication line 24 and the reference voltage generator 13 on the communication line 25. This is done connection and work on taking readings in the BAT and BAZ and diagnostics as follows: to the control register 7 of the analog signal switch via the information bus 16 and the control signal 17 coming from the block 11 of the control and computer interface, a control word is written, which is transmitted further from the output of register 7 to the control input of switch 2, which determines the selection of the required pair of electrodes (passive and active measuring electrodes) from the block 1 of the electrodes and the connection of this pair through the communication line 21 through the switch 2, an active electrode to a communication line 24 for connecting measurement signals to an input of an amplifier 12, and a passive electrode to a line 25 for connecting to a reference voltage generator 13. The signal from the resulting circuit (reference voltage generator 13, communication line 25, switch 2, communication line 21, passive electrode, patient's hand, skin in the BAP area, active electrode, communication line 21, switch 2, communication line 24, is input the amplifier of the measurement signals 12. From one of the output of the amplifier 12, the received signal is transmitted through the communication line 29 to the input of the measuring device 14. A bias voltage from the generator 13 is supplied to the other input of the measuring device 14 through the line 30. From the other output of the amplifier 12 along the line 28, measured si the signal is fed to the input of the analog-to-digital converter 6. From the output of the digital-to-analog converter 6, the digitized signal is fed to the input of the buffer register 10 and, by the control signal 20, is sent to the control and computer interface unit 11, and then transferred to the computer via the communication line 15. The results of measurements with BAT and BAS serve as the basis for the diagnosis and the basis for choosing a strategy and technology for the subsequent therapeutic effect on the patient's body.

 In the device, the operating mode of adaptive bioresonance therapy is possible to achieve the optimal effect, according to preliminary diagnostic indications in the BAT and BAS for a particular patient. The adaptive bioresonance therapy mode is carried out under the control of hardware-software feedback formed by switching units, measurements and an analog-to-digital converter, as well as a control and adjustment unit for resonant characteristics and software-implemented diagnostic and therapy algorithms. In the treatment mode, the results of previous measurements are used, and according to the diagnostic results for certain BAT and / or BAS, the exposure method and the necessary settings for the control unit and adjusting the resonance characteristics are selected 3. The device is put into adaptive bioresonance therapy operation mode as follows. In the control register 7 of the switch of analog signals via the information bus 16 by the control signal 17 coming from the control unit and the computer interface 11, the control word is written, which is transmitted further from the output of the register 7 to the control input of the switch 2, which determines the choice of the necessary pair of therapeutic electrodes ( passive and active) from unit 1. The necessary control information coming from the control and computer interface unit 11 via the information bus 16 is recorded in register 8 by the control signal 18, which Lee supplied to the control unit 3 inputs the control and adjustment of resonance characteristics and adjusts them according to the measured signal. Block 3 is an adaptive space-time filter, the characteristics of which are adjusted in accordance with the selected adaptation criterion. For example, to maximize the signal-to-noise ratio, where a signal is understood to mean physiological oscillations, and interference is pathological oscillations. Optimization criteria can be set programmatically in accordance with the results of parameter measurements on the current BAT and / or BAZ. The electromagnetic field of the patient responds to these therapeutic therapeutic signals and returns to the device again already changed, the received signal is converted again in the device and returned to the patient. This process is repeated, while the pathological components of the oscillations are suppressed and destroyed, and physiological dynamic equilibrium is gradually restored.

 The device can transfer information about physiological and pathological fluctuations, as well as selected electronic copies of the BAT and BAZ. The transfer of electronic copies is possible on secondary carriers and / or a storage unit for the characteristics of oscillations with BAT and BAZ with the aim of using the obtained copies for subsequent therapeutic intervention or comparison.

 The transfer of the device to the operating mode of transferring electronic copies from BAT and BAZ to secondary media is as follows. In the control register 7 of the switch of analog signals via the information bus 16 by the control signal 17 coming from the control and computer interface unit 11, the control word is written, which is transmitted further from the output of register 7 to the control input of the switch 2 determining the connection of the selected pair of electrodes connected to the BAT or BAZ. The necessary control information coming from the control unit and the computer interface 11 via the information bus 16 is recorded in the register 8 by the control signal 18, which is then fed to the control inputs of the control unit 3 for adjusting the resonant characteristics and then used to control the physiological and physiological registration unit 4 pathological oscillations of the electromagnetic field. Also, the control information received from the control and computer interface unit 11 via the information bus 16 is recorded in the register 9 by the control signal 19, which is then fed to the control inputs of the oscillation characteristics storage unit 10 with the BAT and BAZ, which determines the choice of information storage location and connection block 10 through a communication line 27 to block 4 registration of fluctuations in the electromagnetic field. Block 4 allows you to record physiological and pathological fluctuations, as well as their arbitrary sum and difference with certain amplitude-spectral ratios on a carrier (alcohol, water, etc.) placed in the block, to prolong the treatment process between sessions of bioresonance therapy. Recording is carried out using the electromagnetic field emitted by special inductors included in the unit for recording physiological and pathological vibrations of the electromagnetic field 4.

Claims (1)

 An adaptive bioresonance therapy device containing an electrode block connected to a switch, an amplifier, a control and computer interface unit and a measuring device, characterized in that a control and adjustment unit for resonant characteristics, a unit for recording physiological and pathological fluctuations of the electromagnetic field, a storage unit are introduced characteristics of vibrations from biologically active points and biologically active zones, an analog-to-digital converter, a buffer register and three control registers, while the control outputs of the control unit and the computer are connected through the first control register with the control inputs of the switch, through the second control register with the control inputs of the control unit and adjust the resonance characteristics, through the third control register with the control inputs of the control unit for storing vibration characteristics from biologically active points and biologically active zones, the information input is combined with the information inputs of the control registers and is connected through the buffer register to the output of analog-digital transducer, one of the outputs of the switch is connected through an amplifier to the input of the measuring device and to the input of an analog-to-digital converter, the other inputs and outputs of the switch are connected to the signal inputs and outputs of the control unit and adjust the resonant characteristics, and between the unit for storing vibration characteristics from biologically active points and biologically active zones and the control unit and the adjustment of the resonant characteristics included a unit for recording physiological and pathological vibrations first electromagnetic field.