RU2277428C2 - Electrostimulator - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: electrostimulator can be used for programming different modes of stimulation for restoration of patient's sensor system. Electrostimulator has control unit composed of controlling microcontroller and feedback signal input, unit for communicating with control system which has first input and output to be correspondingly the first and second input and output of electrostimulator. The second input and output are connected with first input and the second output of controlling microcontroller. First output of microcontroller is connected with input of influence parameters forming unit. Electrostimulator is also provided with stimulation pulses influence electrodes. Control unit additionally has influence parameters reading detectors. First input of the detectors is connected with third output of microcontroller, the second input is connected with output of influence parameters forming unit, the first input is connected with first input of analog amplifiers and the second output has to be the second output of electrostimulator and it is connected with stimulation pulses influence electrodes. Input of feedback signal is connected with second input of analog amplifiers and it has to be the second input of electrostimulator.

EFFECT: improved efficiency of restoration of functions of sensor systems.

8 cl, 2 dwg

Description

The invention relates to computer technology and can be used in medicine, for example, for the diagnosis of diseases of auditory, visual and other systems by electrical stimulation of the retina, optic, auditory and other nerves, subcortical visual, auditory and other centers and cortical representation of the visual, auditory analyzer.

A device for electrical stimulation containing a power supply unit, a high-frequency converter, a control pulse generation unit, an energy storage unit, output units, groups of electrodes, the power supply unit being coupled to an energy storage unit and a control pulse generation unit associated with an energy storage unit interacting via transformers with several output blocks and electrodes made in the form of groups of closed conductor concentric rings located in one another with the centers of symmetry of the active and indifferent electrodes, the active and indifferent electrodes are connected to the first output block and the electrodes in the form of concentric rings are connected in pairs to the other output unit. The device can be equipped with one group or two groups of electrodes in the form of closed conductive concentric rings (see RF patent for the invention No. 2061510, IPC A 61 N 01/36, publ. 06/10/1996).

A disadvantage of the known device is a narrow set of parameters of possible effects and the lack of control of the impact on the visual system of the patient. Therefore, when using this device, it becomes necessary to question the patient about changes that occur during exposure, which cannot be reliable information.

Also known is a device for treating diseases of the optic tract through electrical stimulation, consisting of a high voltage transducer, exposure electrodes, pulse sensor, pulse simulator, matching unit, switch, pulse shaper, key, pulse amplitude adjustment unit, rectifier, current limiting resistor, pulse polarity switch, active and passive electrodes, frequency counter, unit for selecting operating modes, buttons "More", "Less", "Start", "Stop", charge setting unit, indicator ora, of two OR elements, a trigger, a charge meter, a voltage reference, a comparator and a one-shot, and the input of the heart rate sensor is connected to the patient, the output of the heart rate sensor through a matching node is connected to the first input of the switch, the second input of which is connected to a pulse simulator, the output of the switch is connected with a frequency meter and with the first input of the pulse shaper, the second input of which is connected to the first output of the operating mode selection unit, the second output of which is connected to the first input of the polarity switch imp pulses, the input of the operating mode selection unit is connected to the first output of the pulse shaper, the second output of which is connected to the first input of the key, the second input of which is connected to the output of the trigger, to the first input of the charge setting unit and to the first input of the first OR element; the outputs of the key and the pulse amplitude adjustment unit are connected respectively to the first and second inputs of the high-voltage converter, the output of which is connected through a series-connected rectifier and current-limiting resistor to the second input of the pulse polarity switch, the first and second outputs of which are connected to the patient through the active and passive electrodes, the third output the pulse polarity switch is connected to the indicator and to the first input of the charge meter, the second input of which is connected to the output of the first OR element, the output of the charge meter and the source of the reference voltage are connected to the first and second inputs of the comparator, the output of which is connected through a single vibrator to the second inputs of the first OR element and the charge setting unit, the third and fourth inputs of which are connected respectively to the More, Less buttons ", the output of the charge setting unit and the Stop button are connected to the first and second inputs of the second OR element, the output of which is connected to the first input of the trigger, the second input of which is connected to the Start button (see RF patent for the invention No. 2074683, IPC A 61 F 09/00, A 61 N 01/00, A 61 N 01/32, publ. 03/10/1997).

A disadvantage of the known device is that it can implement a limited number of stimulation modes and a narrow set of parameters of possible effects, since only a positive pulse polarity is specified in the known device. In addition, there is no possibility of varying the shape of the pulse, as well as controlling the impact on the patient’s visual system.

A device for treating neurovascular diseases of the eye and partial atrophy of the optic nerve, containing a current source, a frequency generator and an amplifier, an generator electrically connected to the patient is connected to three sequentially switched pulse counters, which are electrically connected to a digital-to-analog converter, which is connected to an analog-frequency voltage converter, output which is connected to the input of the unit that sets the pulse duration, the output of which is connected to the input of the amplifier (see atent RF for the invention №2063198, IPC A 61 F 09/00, publ. 10.07.1996 g).

A disadvantage of the known device is that it uses unreasonably high frequencies of exposure, leading to the depletion of trophic resources of the visual system. In addition, in the known device there is no control of the impact on the visual system of the patient.

A multi-channel stimulator is known that implements a method of restoring vision in case of damage to the retina and optic nerve, comprising a mode selection unit, a parameter input unit, cycle shapers, series, sessions, pulse counter, signal level converter, channel switch, clock generator, current generator, regulator amplitudes and an analog switch, n outputs of which are stimulator outputs. The device also includes a control unit, a parameter storage unit, an indication unit, a channel shaper connected in a certain way (see RF patent for invention No. 2093118, IPC A 61 F 9/00, A 61 N 1/36, publ. 20.10.1997 g.).

In the known device only biphasic rectangular pulses of positive polarity are formed at a fixed frequency of the pulse duration, which limits the possibility of programming pulses of any arbitrary shape, duration and polarity of the impact. In addition, in the known device there is also no control of the impact on the visual system of the patient.

A device for electrical stimulation of the optic tract, containing an input unit in the form of a keyboard; display unit in the form of a display; communication unit with a computer; a power supply unit, a control unit, a digital-to-analog converter, a stimulating pulse shaper that contains an amplifier, a demultiplexer, two multi-zone electrodes and a common electrode. The control unit contains a pulse parameter memory, a generator, a counter for generating time intervals, a zone number counter, an eye number counter, a cycle number counter, a pulse number counter in a cycle, a comparison unit, a reverse series number counter, a reverse pulse amplitude setting counter, a mode setting trigger " Start "," Stop ", trigger for setting the modes" Installation "," Stimulation ". The output of the input unit is connected to the input of the control unit, the outputs of which are connected to the inputs of the communication unit with the computer, display unit, digital-to-analog converter and stimulating pulse shaper (see RF patent for the invention No. 20059540, IPC G 06 F 15/42, A 61 N 01/36, published on March 15, 1994).

In the known device, the stimulation of the visual system is carried out by the action of successive bipolar pulses of a given amplitude, the number equal to the number of pulses specified by the counter. This limits the parameters of possible effects on the visual system. In addition, in the known device there is no control of the impact on the visual system of the patient.

Closest to the claimed technical solution is a medical apparatus for electrical stimulation, comprising a control unit including a control microcontroller and a feedback signal input, a communication unit with a control system, the first input and output of which are the first input and output of the electric stimulator, respectively, the second input and output are connected respectively with the first input and second output of the control microcontroller, the first output of which is connected to the input of the block for generating exposure parameters, and electro s exposure to stimulating pulses (see. EP №0841074, IPC A 61 N 1/365, publ. 13.05.1998).

A disadvantage of the known medical device is the lack of control of the actual parameters of exposure to the patient, which may differ from the set for various reasons, for example, violation of the contact of the electrodes, a change in resistance in the circuit (resistance control in the circuit), which reduces the effectiveness of the therapy.

The objective of the present invention is to provide an electrical stimulator that improves the efficiency of restoration of the functions of sensory systems (auditory, visual and other systems).

The technical result obtained by using the invention is the ability to measure the exposure parameters actually received by the patient and to control the exposure to the patient’s sensory system for individually selecting exposure parameters.

The problem is achieved in that in an electric stimulator containing a control unit including a control microcontroller and a feedback signal input, a communication unit with a control system, the first input and output of which are the first input and output of the electric stimulator, respectively, the second input and output are connected respectively to the first input and the second output of the control microcontroller, the first output of which is connected to the input of the block forming the parameters of the impact, and the electrodes of the stimulating pulses, with According to the invention, the control unit further comprises sensors for detecting exposure parameters, the first input of which is connected to the third output of the control microcontroller, the second input is the output of the exposure parameter generation unit, the first output is the first input of analog amplifiers, and the second output is the second output of the electric stimulator and connected to electrodes of stimulating pulses, while the input of the feedback signal is connected to the second input of analog amplifiers and is the second input of electrical stimuli yatora.

In addition, the control microcontroller is equipped with a built-in analog-to-digital converter.

In addition, analog amplifiers are amplifiers of the parameters of the current, exposure voltage and feedback signal.

The outputs of the analog amplifiers are connected to the inputs of the analog-to-digital converter built into the microcontroller.

In addition, the communication unit is made in the form of a portable radio station, and the control unit is equipped with a multiplexer.

In addition, impact sensors are built into the multiplexer.

In this case, the third output of the control microcontroller and the output of the unit for generating exposure parameters are connected to the sensors for acquiring the exposure parameters through the multiplexer.

The presence of sensors for measuring the exposure parameters and their relationship with the elements of the electric stimulator allows the measurement of the exposure parameters (current and voltage) that actually arrived at the patient, the patient’s response to the actually received exposure parameters and control of the exposure to the patient’s sensor system for individual selection of exposure parameters. This makes it possible to adjust the exposure parameters individually for each patient, which increases the efficiency of restoration of the functions of sensory systems (auditory, visual and other systems).

The invention is illustrated by drawings, where in Fig.1 shows a structural diagram of an electric stimulator; figure 2 is a structural diagram of an embodiment of an electrical stimulator.

The pacemaker contains a communication unit 1 with a control system, a control unit 2 and a block 3 for generating exposure parameters. The control unit 2 contains a control microcontroller 4 with a built-in analog-to-digital converter 5, sensors 6 for measuring the exposure parameters, input 7 of the feedback signal, analog amplifiers 8 for the parameters of the current current, voltage of the signal and feedback signal, and electrodes 9 for stimulating pulses.

The first input and output of the communication unit 1 are the first input and output of the electric stimulator. The second output and output of the communication unit 1 are connected to the first input and the second output. The first output of the control microcontroller 4 is connected to the input of block 2 of the formation of exposure parameters.

The first input of the sensors 6 for picking up the exposure parameters is connected to the third output of the control microcontroller 4, and the second input of the sensors 6 for taking the parameters for exposure is connected to the output of the block 3 for forming the exposure parameters.

The first output of the sensors 6 for picking up the exposure parameters is connected to the first input of analog amplifiers 8, and the second output of the sensors 6 for picking up the parameters for exposure is the second output of the electric stimulator and connected to the electrodes of the stimulating pulses, while the input of the feedback signal 7 is connected to the second output of the analog amplifiers 8 and is the second input of the electrical stimulator.

The outputs of the analog amplifiers 8 are connected to the inputs of the analog-to-digital converter 5 built into the microcontroller 4.

The communication unit 1 can be made in the form of a portable radio station, and a multiplexer 10 can be introduced into the control unit 2.

In this case, the sensors 6 for measuring the impact parameters are built into the multiplexer 10, and the third output of the control microcontroller 4 and the output of the block 3 for generating the parameters for the action are connected to the sensors 6 for measuring the parameters of the effect through the multiplexer 10.

The stimulating electrodes can be, for example, all-metal or having a special nozzle for supplying the gel. The second design improves contact between electrodes and tissue.

The stimulator works as follows.

The selected effect, for example, is fed from the computer to the input of the electric stimulator and, through the communication unit 1, is transmitted to the control microcontroller 4.

The control microcontroller 4 controls all the nodes and blocks of the device, the operating modes of the device, and also provides diagnostics and condition of the nodes and blocks of the device. The control microcontroller 4 generates signals for setting the current, polarity switching, setting the current value, as well as operating modes of the program for its functional purpose (for example, turning on and off, storing signals, oscillography).

The specified operating modes are transmitted to the block 3 of the formation of the exposure parameters, which implements the formation of an electrical signal of various polarities, shapes and durations.

The polarity of the signal, its shape and duration are selected depending on the treatment technique used, prophylactic exposure or diagnosis.

For example, the polarity can be negative or positive, the waveform is rectangular, triangular, the signal duration is 30 s, 50 s.

For example, for electrical stimulation of the optic nerve, exposure can be carried out by a series of positive rectangular pulses with a duration of 10 ms, a pulse repetition rate of 15 Hz, in burst mode (5 pulses per packet), at a pulse repetition rate of 1 / s, the duration of the series is 30 s and the interval between series 1 min Throughout the course, exposure was carried out with a current amplitude of 100-300 μA in white noise mode.

The generated electrical exposure signal is supplied to the multiplexer 10, which commutes the generated electrical exposure to the corresponding exposure electrode 9.

To control a given effect on the patient, in particular, to track the disturbance of the contact of the electrodes and to eliminate artifacts for the collection of feedback signals, from the sensors 10 installed in the multiplexer 10, the actually obtained exposure parameters are removed, which enter the analog amplifiers 8. At the same time, the analog amplifiers 8 at the input 7 feedback signals receive cortical potentials caused by signals of electrical exposure.

Analog amplifiers 8 carry out electrical normalization (conversion) of the obtained three signals: from sensors 6 — the actual values of the exposure voltage and the exposure current received from the patient, and from the input 7 of the feedback signal — the voltage caused by the electrical exposure signals. The converted signals are transmitted through an analog-to-digital converter 5 to the control microcontroller 4.

The control microcontroller 4 performs measurement and conversion into the numbers of three electrically normalized signals and their subsequent transmission through the communication unit 1 to the first output of the electric stimulator. The first output of the electric stimulator can be connected to a computer, which, according to a given program, corrects the parameters of the effect, monitors the parameters of the therapeutic effect and the response of the cerebral cortex to this effect.

The control unit 1 visualizes the received information, records, analyzes and archives it.

The pacemaker has small dimensions and weight, i.e. the device belongs to the category of pocket; provides certain electrical characteristics, i.e. the maximum current amplitude, voltage amplitude, amplitude of the exposure frequency for each patient; provides the ability to measure and document, for example, to record in the memory of a computer the really obtained parameters of the electrical effect; provides the ability to program various patient management techniques and exposure sequences; It protects a person from electric shock due to the possibility of information exchange over the air and autonomous battery power; provides the ability to limit the functions performed by multilevel access rights.

Claims (8)

1. An electrical stimulator comprising a control unit including a control microcontroller and a feedback signal input, a communication unit with a control system, the first input and output of which are the first input and output of the electric stimulator, respectively, the second output and input are connected respectively to the first input and second output of the control microcontroller the first output of which is connected to the input of the block for generating exposure parameters, and the electrodes for stimulating pulses, characterized in that the control unit it contains sensors for measuring the exposure parameters, the first input of which is connected to the third output of the control microcontroller, the second input is the output of the exposure parameter generation unit, the first output is the first input of analog amplifiers, and the second output is the second output of the electric stimulator and connected to stimulating electrodes pulses, while the input of the feedback signal is connected to the second input of analog amplifiers and is the second input of the electric stimulator. 2. The electrical stimulator according to claim 1, characterized in that the control microcontroller is equipped with a built-in analog-to-digital converter. 3. The pacemaker according to claim 1, characterized in that the analog amplifiers are amplifiers of the parameters of the current current, voltage exposure and feedback signal. 4. The electrical stimulator according to claim 1, characterized in that the outputs of the analog amplifiers are connected to the inputs of an analog-to-digital converter built into the control microcontroller. 5. The electrical stimulator according to claim 1, characterized in that the communication unit is made in the form of a portable radio station. 6. The electrical stimulator according to claim 1, characterized in that the control unit is equipped with a multiplexer. 7. The electrical stimulator according to claim 6, characterized in that the sensors for measuring the exposure parameters are built into the multiplexer. 8. The electrical stimulator according to claim 7, characterized in that the third output of the control microcontroller and the output of the exposure parameter generating unit are connected to the pick-up sensors of the exposure parameters through the multiplexer.

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