RU2124905C1 - Electric therapeutic apparatus - Google Patents

Abstract

FIELD: diagnostics and normalization of organism functional state. SUBSTANCE: apparatus has control unit, power supply unit, galvanic decoupling unit, digital-to-analog and the first analog-to-digital converters, and protection unit. Apparatus also includes switch, electrodes, master oscillator, preset current and frequency measuring unit, actuating current, frequency and resistance measuring unit, and logic unit. In addition, apparatus contains matching unit, active electrodes, reference electrode, five-channel amplifier, the second analog-to-digital converter, and mathematical processing unit. EFFECT: extended functional capabilities. 4 dwg

Description

 The invention relates to medicine, namely to apparatus for diagnosis and therapy with exposure to electric current supplied through contact electrodes, and is intended for registration, processing and analysis of constant potentials of the brain with subsequent exposure to the brain through the integument of the skull in order to normalize the functional state organism, as well as for research on the improvement and development of methods and methods of normalization in various types of functional disorders.

 Known electrotherapy apparatus (RF patent N 2000124), containing a pairing unit, a digital-to-analog converter (PAI), a control unit, a power supply unit connected to the pairing units and a DAC, a current amplifier covered by a negative current coupling and incorporating an operational amplifier and a transistor a circuit with a reference resistor in the emitter circuit of the output transistor and the electrode connected to the patient, a switch connected to the interface unit and a power supply, the output of the switch connected to the electrodes, one of the input in is connected to the collector of the transistor, the emitter of which is connected through the resistor to the power bus, and the base is connected to the midpoint of the divider of two resistors connected between the power bus and the zero bus, the second input of the switch is connected to the collector of the output transistor, the base of which is connected through the resistor to the output operational amplifier; a second operational amplifier is introduced into the current amplifier, the non-inverting input of which is connected through resistors to the base and emitter of the output transistor, the inverting input of which is connected through resistors to its own output and output of the first operational amplifier, and the input is connected to the inverting input of the first operational amplifier, an analog-to-digital converter (ADC), the input of which is connected to the output of the second operational amplifier, also connected to the power supply; a protection unit connected to the output of the DAC, a current amplifier, and a power supply; galvanic isolation unit connected to the interface and power units, the input of the DAC and the output of the ADC. The null bus mentioned above is isolated from the null bus of the computer.

 The disadvantage of this device is its low functionality due to the small number of connected electrodes and the small number of treatment programs being implemented and the relatively narrow operating frequency band.

 An electrotherapeutic apparatus is also known (WO 97/01371 A1, January 16, 1997), comprising a control unit, the output of which is connected through the power supply to the first output of the protection unit, and its input is the output through the galvanic isolation unit, with the ADC output and the DAC input, respectively , a switch, to the first outputs of which the corresponding electrodes are connected, a master oscillator, a unit for measuring the set currents and frequencies, a unit for measuring the acting currents, frequencies and resistances, a logical unit, the DAC output through the master oscillator is connected to the second input of the protection unit, the first output of which is connected to the input of the switch, the second output of which is connected to the third input of the protection unit through the measuring unit of the acting currents, frequencies and resistances, the three inputs of the logic unit are connected respectively to the second output of the protection unit, through the unit for measuring the set currents and frequencies with the second output of the master oscillator and with the second output of the measuring unit of the acting currents, frequencies and resistance, and its output with the input of the ADC.

 Replacing the current amplifier in the circuit of the apparatus with a master oscillator can significantly expand its frequency band, and the introduction of measuring circuits of set and acting currents and frequencies allows to increase the efficiency and reliability of the treatment process.

 The presence of an analog-to-digital converter in the device allows you to enter a digital signal into the computer that is adequate to the current in the load, to provide automatic and visual control of compliance with the current set and for the organization of control of exposure current parameters.

 The switch allows you to use a large number of electrodes fixed at different points, and to change the currents and frequencies during the treatment procedure in a wide range required by medical practice.

 The logic unit connects the protection unit and the measurement units of the set and acting parameters with an analog-to-digital converter.

 The protection unit allows the voltage to fall to 0 exponentially in the event of a power outage. The galvanic isolation unit duplicates digital signals, isolating the circuit of the device, galvanically connected to the electrodes from the computer's electrical circuits.

 However, this device does not allow to diagnose the functional and pathological conditions of the body, store information and display it at any stage of treatment and diagnosis.

 The task at hand is the expansion of functional capabilities and an increase in the autonomy of the device.

 The invention is illustrated in FIG. 1 to 4, where in Fig.1 shows a functional diagram of the apparatus; figure 2 - waveform at the output of the switch; figure 3 - waveform with frequency filling at the output of the switch; in FIG. 4 a, b - connection diagram of the electrodes.

 The electrotherapy device (Fig. 1) contains a matching unit 1, a control unit 2, a power supply 3, a galvanic isolation unit 4, a DAC 5, a first ADC 6, a master oscillator 7, a protection unit 8, a unit for measuring the set currents and frequencies 9, a measuring unit acting currents, frequencies and resistances 10, switch 11, electrode 12, logic block 13, active electrodes 14, reference electrode 15, five-channel amplifier 16, second ADC 17 and mathematical processing unit 18. The control unit 2 of the output through the power supply 3 is connected to the first input of the protection unit 8. First the output input-output of unit 2 through the galvanic isolation unit 4 is connected to the output of the first ADC 6 and the inputs of the DAC 5. The output of the DAC 5 through the master oscillator 7 is connected to the second input of the protection unit 8, the first output of the unit 8 is connected to the input of the switch 11. To the first inputs electrodes 12 are connected to the switch 11. The second output of the switch 11 is connected through the block 10 to the third input of the protection block 8. The inputs of the logic block 13 are connected respectively to the second output of the protection block 8, through the measuring block 9 with the second output of the master oscillator 7 and with the second output of the block rhenium of the currents, frequencies and resistances 10. The output of block 13 is connected to the input of the first ADC 6. The matching unit 1 is connected to the mathematical processing unit 18 and the control unit 2. Active 14 and reference 15 electrodes are connected through a five-channel amplifier 16 to the second ADC 17, the output which is connected to the mathematical processing unit 18. The output of block 18 through the matching unit 1 is connected to the control unit 2.

 The millivolt electrical signal, which is removed from the electrodes 14 and 15 (active electrodes 14 are located along the sagittal line: in the frontal, central, occipital regions, as well as in the right and left temporal sections, and the signal of the reference electrode 15 is amplified by an amplifier 16 and converted to digital the ADC form 17, after which, in the mathematical processing unit, the potentials recorded by the electrodes 14 are added up, then the potential value of the electrode 15 is subtracted from it, due to this, the true value of the level of constant potential (SCP) of the patient’s brain.The received data are transmitted to the matching unit 1, where they are automatically processed, using them are built the distribution maps of the patient’s SCP, which are compared with the maps obtained by monopolar measurement of the SCP values.

 However, in some cases, it is informative to analyze the deviations of the SCP in each of the leads from the average values recorded in all areas of the head. In this case, it becomes possible to estimate local SCP values in each of the regions with the exception of influences coming from the reference electrode. This is especially significant with local brain lesions, such as strokes.

 After a statistical analysis of the deviations of the experimental values from the reference unit 1, the operator calls the appropriate therapeutic program.

 According to a given program, unit 1 sends a control signal, which is fed to control unit 2 (control unit).

 The control unit sends a signal to turn on the power supply 3 and the enable signal to the switch 11. At the same time, the control unit 2 sends a signal to the master oscillator 7, which passes through the galvanic isolation unit 4 and the digital-to-analog converter 5. The output signal of the generator 7 through the protection unit 8 is received on the switch 11 for the procedure. Under the influence of the gating signal from the control unit 2, the generated signal is supplied to the electrodes 12. In addition, the signal from the master oscillator is fed to the measuring unit 9. The measuring unit 9 in real time measures the signals (current, frequency) of the master oscillator 7. The signal acting on the patient through the electrodes 12, enters the measuring unit 10. The measuring unit 10 allows you to measure the current supplied to the electrodes, the frequency and resistance of the patient during the procedure, as well as before and after it. From the measurement units 9 and 10, the signals are fed to the logical unit 13 and through the ADC 6 and unit 4 to the control unit 2, and then to unit 1, realizing feedback. Block 1 analyzes the received signals and controls the further therapeutic process. In the event of a malfunction of the apparatus, the signal from the protection unit 8 is sent to block 13. The logic block 13 sends the signal to the control unit 2 through the ADC and block 4, and then to block 1.

 Autonomous power supply 3 in the event of a failure in the external circuit provides uninterrupted power to the circuit until the end of the procedure.

 In the event of an internal malfunction or inconsistency with the set signals and received by the patients, the protection unit 8 is activated, providing a smooth voltage drop across the electrodes from 6 mA to 0 in 10 s according to the requirements of medical equipment.

 The switch 11 in accordance with the strobe signals of the control unit 2 allows you to send signals according to the therapeutic program to one or all 4 patients at the same time.

 The device operates in a frequency mode from 5 to 10,000 Hz with a current strength on the electrodes of 0 to 6 mA and a resistance of 2 to 7 kΩ.

The electrotherapy apparatus allows using special methods of analysis and tonographic mapping of SCP to assess the total energy consumption of the brain and its individual areas, as well as diagnose and treat a wide range of functional and pathological conditions of the body in the field of:
1) Therapy:
cardiology, pulmonology, gastroenterology, dermatology, endocrinology, rheumatology.

2) Surgery:
abdominal, thoracic, traumatology, urology, combustiology.

 3) Neurology.

 4) Psychiatry.

 5) Gynecology.

 6) Rehabilitation.

 7) Sports medicine.

 The device meets the electrical safety requirements for medical equipment and guarantees a comfortable mode of exposure to the patient.

Claims (1)

 An electrotherapy device containing a control unit, the output of which is connected through the power supply to the first input of the protection unit, and its first input - the output through the galvanic isolation unit - with the output of the first analog-to-digital and digital-to-analog converters, respectively, the corresponding electrodes are connected to the first outputs of the switch , the output of the digital-to-analog converter through the master oscillator is connected to the second input of the protection unit, the first output of which is connected to the input of the switch, the second output of which о through the measuring unit of the acting currents, frequencies and resistances is connected to the third input of the protection unit, the three inputs of the logical unit are connected respectively to the second output of the protection unit, through the measuring unit of the set currents and frequencies with the second output of the master oscillator and the second output of the measuring unit of the acting currents, frequencies and resistances, and its output - with the input of the first analog-to-digital converter, characterized in that an additional matching unit, active and reference electrodes, five-channel are introduced into it the first amplifier, the second analog-to-digital converter and the mathematical processing unit, the output of which through the matching unit is connected to the second input - the output of the control unit, and the input through the second analog-to-digital converter - to the output of the five-channel amplifier, the inputs of which are connected to the corresponding active and reference electrodes .

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