EA017426B1 - Multifunctional apparatus for physical therapy - Google Patents

Abstract

The claimed invention relates to medicine, in particular to the devices for physical medicine by electro- and vacuum therapy. More particularly, the invention relates to a multifunctional apparatus for physical therapy, which allows conducting combined and/or complex therapy by punctual darsonvalization, vacuum impact and delivery to the drug effect point. The apparatus represents a complex comprising of a radio-frequency unit, vacuum treatment unit, drugs (in particular, liquid dosage forms) output unit and patient's condition monitoring facilities, which are interconnected through a microcontroller based operating modes control and modes annunciation unit. The operating modes control and modes annunciation unit is constructed so that a control type can be chosen from the group, comprising an automatic control, semi-automatic control and manual control, a control mode can be chosen from the group, comprising an independent control of each of the mentioned units, control of each of the mentioned units depending on control of the other unit in couples, control of each of the mentioned units depending on control of all the other units, and the each of the mentioned units operating mode can be chosen from the group, comprising continuous, discontinuous and wave action. The patient's condition monitoring facilities comprise, at least, a blood pressure measuring device and a heart rate measuring device. Wherein, at least, one electrode is adapted to a simultaneous controlled connection with radio-frequency pulse formation unit, vacuum treatment unit and drugs output unit.

Description

The claimed invention relates to medicine, in particular to devices for physiotherapy through electro and vacuum therapy. More specifically, the invention relates to a physiotherapeutic multifunctional apparatus, which allows for combination and / or combined therapy by local darsonvalization, exposure to vacuum and delivery to the site of exposure of the drug. The apparatus is an interconnected complex consisting of a high-frequency unit and a vacuum unit, as well as containing a unit for dispensing drugs (in particular, liquid dosage forms). The inventive device is intended for use in a complex of treatment and prophylactic and rehabilitation measures in physiotherapy rooms and departments, in specialized departments of treatment and prophylactic institutions for the treatment of various diseases in dentistry, traumatology, surgery, pulmonology, gastroenterology, neurology, dermatology, cardiology, urology, gynecology , ENT diseases, eye diseases, etc. It can also be used in spa facilities, in cosmetology and sports, as well as at home.

Traditionally, in various fields of medicine, for the prevention and treatment of a wide range of diseases and conditions, various physiotherapeutic devices based on electric and / or vacuum exposure are used. Basically, known devices are devices that provide only one specific type of exposure - electrical, vacuum, etc. exposure.

So, among vacuum physiotherapeutic apparatuses, the vacuum apparatus (ALP-02) is known, which is intended for the diagnosis and treatment of periodontal (periodontal) diseases using a local vacuum according to the method of V.I. Kulazhenko. The device can also be used for electrovacuum anesthesia in the clinic of orthopedic dentistry. The device is portable and can be used on an outpatient and field basis. The created vacuum is not less than 0.90 kgf / cm ² [1, 2, 3, 4]. The disadvantage of such an apparatus is that its design features do not provide the ability to measure the vacuum parameters in a fixed manner. This makes it difficult to use other, no less effective methods of vacuum therapy. Overall dimensions 385x190x240 mm, weight not less than 13 kg do not have to comfortable conditions for its operation. The device was developed more than 30 years ago and is outdated both morally and in terms of its technical characteristics. In the available sources of information, it was not possible to identify information about any modifications to this unit or similar new designs.

A device is also known for the preventive treatment of generalized periodontitis (periodontitis) with dosed vacuum [5]. The disadvantage of this device is that it creates a vacuum of only moderate degree (520.0-533.3 hPa, 390-400 mm Hg residual pressure).

Also known apparatus for vacuum therapy with microprocessor control FIZIOVAKExpert [6]. Its disadvantage is that its structural elements do not provide for the possibility of the combined use of vacuum therapy and drug therapy.

Among devices based on electric shock, various devices for local darsonvalization are known. In particular, devices for local darsonvalization of the Iskra series are known: Iskra-1, Iskra-2 (DAR-1-02), Iskra-3 (DAR-25-3) [7, 8, 9]. The disadvantage of these devices is that they are inconvenient to use due to the large overall dimensions (390x345x152 for the devices Iskra-1, Iskra-2 (DAR-1-02)). In addition, special skills are required in manual dosing of the applied physical factors. The resonator of the device is non-ergonomic, which also makes it difficult to carry out some manipulations. In all devices, the time of the physiotherapy is not automatically controlled.

Devices for local darsonvalization made according to a higher second class of electrical safety are also known: Impulse-1 [10], AMD Blik [11], Darsonval DE-212KARAT [12], Darsonval apparatus ELAD-Med TeKo [13], Darsonval NUN ΕΡΕΟυΕΝί ' Ύ 2000 bs510 [14], apparatus Darsonval ST-217, Ca1spa [15], apparatus for darsonvalization Korona-M [16], apparatus for darsonvalization Skhapps [17]. The disadvantage of these known devices is that they are all portable devices, and therefore their use in physiotherapy rooms (departments) is limited. Dosing of the physiotherapeutic factor is carried out subjectively (according to the patient’s feelings).

A device for local darsonvalization [18] is known, which contains a low-frequency step-up transformer (NTP) and an active gas-discharge electrode connected to its secondary winding, as well as a secondary source of electrical energy connected to the primary winding of the NTP through a control valve, and a start-up circuit. In the device, the secondary source of electrical energy is made in the form of two series-connected capacitors, and the start-up circuit is a threshold device on a transistor, the collector of which is connected through a limiting resistor to the control electrode of the valve, and the emitter of the transistor is connected to one of the terminals of the secondary source through a potentiometer, the potentiometer is connected via a storage capacitor to another terminal of the secondary source. Resistors are added to the threshold device, connected one in parallel and the other in series with the potentiometer. An isolation capacitor is connected between the free end of the NTP secondary winding and its primary winding from the potentiometer side. Parallel to a secondary source of electrical energy, interconnected

- 1 017426 series resistor and LED. The disadvantage of this device is that it provides only one type of exposure - exposure to current.

More effective, from the point of view of achieving a therapeutic effect, are complex devices for physiotherapy, providing for various types of exposure.

So, the physiotherapeutic dental complex KAP-PARODONTOLOGIS is known [19]. The complex is intended for the diagnosis and treatment of inflammatory periodontal diseases (periodontal) according to the Kulazhenko method (vacuum massage) both in isolation and in combination with modulated laser radiation of the red spectral region, as well as for exposure to infrared laser radiation, traveling magnetic field and for electrophoresis of drugs for the treatment of periodontal disease and other diseases of the oral cavity. The disadvantage of the complex is the impossibility of observing biological resonance (bioresonance principle), when external oscillatory processes (exposure to a physical factor) coincide with internal ones (the selection of the necessary frequencies during physiotherapy is an important component in the treatment process).

Known multifunctional devices (combines), combining several independent devices, including devices for darsonvalization and vacuum devices: 4-functional combine ΌΕ-204 C [20]; cosmetology 8-functional combine [21]; block Rgoy-8u81esh ΕΧ200, block \ Wogk51a1yup Rgoy [22]; cosmetology combine М1СНЕЕЕ 9000А [23]; cosmetology combine E - 8800V [24]; cosmetology combine 6ΕΖΑΤ0ΝΕ I 8003 [25]; B1OMAK (ΝΕν СОМВ1 МАХ) [26]. A disadvantage of the known multifunctional complexes is the possibility of using physiotherapeutic factors either alone or in combination, i.e. sequentially one after another during the course of treatment.

Known multifunction devices (combines), combining in their design (in one hardware unit) several devices, including vacuum and darsonval: cosmetology combine E-920P [27]; cosmetology processor EX-899 [28]; cosmetology processor EX-9001 (4 in 1) [29]; cosmetology processor EX-898 (5 in 1) [30]. The disadvantage of such devices, as mentioned above, is the lack of the possibility of combined (i.e., the simultaneous use of physical factors on the same area of the human body, such as vacuum electrophoresis, vacuum darsonvalization) and interconnected (interdependent) application physiotherapeutic factors.

In addition, the disadvantage of all the known and listed above multifunctional devices (combines) is that they are intended for cosmetological use and, accordingly, cannot be used in other areas of medicine due to the mismatch of the parameters of physical factors necessary for traditional physiotherapy.

To increase the effectiveness of the therapeutic effect in physiotherapeutic devices, it is possible to control the effect (regulation of the parameters of physical factors) in accordance with the current physical condition of the patient (his reaction to the effect).

A device for electrotherapy [31] is known, comprising a power source, a key, a transformer, first and second diodes, a capacitor, a generator, a first and second electrodes, the power source being connected via a key to the primary winding of the transformer, in which, in order to increase the efficiency of electrotherapy, A patient resistor, a first resistor, a comparator, a third diode and a second resistor connected in parallel, as well as a detector and a measuring unit connected in series, are introduced into it. The key control input is connected to the generator output, a capacitor is connected between the anode of the first and the cathode of the second diodes, the secondary winding of the transformer is connected between the anodes of the first and second diodes, the first output of the controlled resistor is connected to the anode of the second diode, the first resistor is connected between the second electrode and the anode of the second diode, power lines of the comparator are connected between the cathode of the first and the anode of the second diodes, the input of the controlled resistor is connected to the output of the comparator, the first electrode is connected to the second output of the control the inventive resistor and with the anode of the third diode, the cathode of which is connected to the cathode of the second diode, the input of the detector is connected to the primary winding of the transformer, the input of the comparator to the second electrode. The disadvantage of this device is that it provides only one type of exposure, which increases the necessary time to achieve a therapeutic effect.

A device for local darsonvalization [32] is also known, which contains a serially connected master oscillator, a shock excitation generator and an electrode, in which, in order to increase electrical safety by reducing power consumption, an envelope detector, a comparison circuit, a first pulse shaper, a coincidence unit, second pulse shaper. The envelope detector input is connected to the second output of the comparison circuit, the output of which is connected to the second input of the coincidence unit, the input of the first pulse shaper is connected to the output of the master oscillator, the output of the first pulse shaper is connected to the first input of the coincidence block, the output of which is connected to the input of the second pulse shaper, the output which is connected to the control input of the master oscillator. The disadvantage of this device is the ability to provide only one type of exposure, which increases the necessary

- 2 017426 time to achieve a therapeutic effect.

A device for treating patients with periodontal disease [33] is also known, comprising a high-frequency generator, a high-voltage pulse shaper, a glass electrode connected to the output of a high-voltage pulse shaper and equipped with a tubular body, the internal cavity of which is connected through a switch to a vacuum source and atmospheric pressure into which in order to reduce treatment time, a pulse sensor, an amplifier, an I circuit, and an electromagnet kinematically connected with a switch were introduced. Moreover, the pulse sensor through the amplifier is connected to an electromagnet and to one of the inputs of the I circuit, the second input of which is connected to a high-frequency generator, and the output of the And circuit is connected to a high-voltage pulse shaper. This device provides the ability to set and / or control the mode of exposure to d'Arsonval current according to the readings of the pulse sensor, however, there is no possibility to set and control the exposure to vacuum according to any indicators of the patient’s physical condition.

It is also known a device for influencing a biological object [34], containing a rectifier-doubler and an active electrode, in which, in order to increase the efficiency of exposure by localizing the simultaneous exposure to electric current, light flux, and ionized gas, series-connected controlled low-frequency oscillators and low-frequency boosters are introduced into it a transformer connected between the rectifier-voltage doubler and the active electrode, as well as a passive electrode connected to another terminal -frequency step-up transformer with output voltage of 1-20 kV, the active electrode is configured as a gas discharge element that converts the high voltage pulse currents in a corona discharge plasma to form a continuous oscillation output 0.2-4 watts. The disadvantage of this device is that the device provides exposure to all of the above physical factors only at the same time.

According to the results of the analysis of physiotherapeutic devices known from the prior art, as a prototype for the claimed multifunctional physiotherapeutic apparatus, the aforementioned device for treating patients with periodontal diseases was selected as a prototype for the claimed general technical features [33]. As already noted, this device provides the ability to set and / or regulate the mode of exposure to d'Arsonval current according to the readings of the pulse sensor, however, there is no possibility to set and regulate the effect of vacuum according to any indicators of the patient’s physical condition.

As a result of a comprehensive study of the problem of increasing the effectiveness of physiotherapy using complex technical means, as well as research and testing, the authors developed an apparatus that provides the ability to select the exposure mode (isolated, sequential and / or simultaneous exposure) of a focal dosed vacuum, darsonvalization and drug ( automatic drug supply), as well as automatic dosing of physical factors (electronic control Leniye energy flows) both in intensity and duration.

Thus, the objective of the invention is to develop the design of a multifunctional physiotherapeutic apparatus, which would have wider functionality, providing the possibility of exposure to various physical factors in various modes - both independently (separately), and in combined and combined forms of application of high-frequency alternating high-frequency pulse currents of high voltage and low power (d'Arsonval currents), focal dosed vacuum and drugs. In addition, the device must provide the ability to select the type of control - automatic control, semi-automatic control and manual control. The device should also provide an increase in the effectiveness of the therapeutic effect and the quality of medical care, including due to the small size that determines the usability of the device, both in clinical (physical room) and at home. All this will contribute to improving the quality of medical care.

The problem is solved by the claimed multifunctional physiotherapeutic apparatus, made in the form of a complex including a high-frequency pulse generation unit, a vacuum unit, at least one, if necessary, an interchangeable electrode associated with a high-frequency pulse generation unit and with a vacuum unit with the possibility of feeding to the place of exposure to the patient’s body of a high-frequency pulse current and vacuum, and a means for monitoring the patient’s condition associated with the high frequency forming unit pulses and a vacuum unit via a matching means. The problem is solved due to the fact that the apparatus further comprises a medication dispensing unit associated with the matching means, a patient condition monitoring means includes at least a blood pressure measuring means and a heart rate measuring means, the matching means is implemented as a mode control unit operation and indication of operating modes based on the microcontroller with the ability to control the unit for generating high-frequency pulses, the evacuation unit and bl ohm dispensing medicaments, the type of control selected from the group consisting of automatic control, semi-automatic management and control in manual mode, the driving mode

- 3 017426 selected from the group including independent control of each of these blocks, control of each of these blocks depending on the control of another block in pairs, control of each of the blocks depending on the control of all other blocks, and the operating mode of each of these blocks is selected from a group including a constant, intermittent and wave action, while at least one electrode is configured to simultaneously communicate with a high-frequency pulse generating unit, a vacuum unit and the unit for dispensing drugs.

The inventive apparatus is fully programmable and due to the above design features and the features of the organization of relations between individual blocks and elements allows in any suitable mode (automatic, semi-automatic, manual) in each case, adjust the parameters of each type of exposure in accordance with the reaction of the patient's body, and also provides the possibility of both independent and integrated (combined and combined) application of high-frequency variables pulse currents of high voltage and low power (d'Arsonval currents), focal dosed vacuum and drugs. Moreover, the presence of a control unit for operating modes and an indication of operating modes allows constant monitoring of the process for each type of exposure. The inventive device provides synchronization of high voltage voltage with a pulse frequency (frequency modulation of effects that implements the principle of bioresonance in therapeutic procedures), as well as controlling the magnitude of the residual pressure by the magnitude of the patient's blood pressure.

The high-frequency pulse generating unit may preferably include at least a high-voltage adjustable voltage stabilizer, a high-frequency signal generator, a high-frequency power amplifier, a high-voltage resonator-transformer, a d'Arsonval current measurement circuit, and the input of the high-voltage adjustable voltage stabilizer is connected to the control output d'Arsonval's current of the control unit for operating modes and indication of operating modes, and the output with the first input of a high-frequency amplifier power, the input of the generator of the shaper of the high-frequency signal is connected to the output of controlling the frequency of the d'Arsonval current of the control unit of the operating modes and indication of operating modes, and the output is from the second input of the high-frequency power amplifier, the output of which is connected to the input of the high-voltage resonator of the transformer, the control output of which is connected by a high-frequency cable to an electrode, and a control output with an input of a d'Arsonval current measurement circuit, one of the outputs of which is connected with a means of indicating a d'Arsonval current it is desirably in the form of an arrow or digital microammeter from the control unit for operating modes and indication of operating modes, and the second with a microcontroller of the control unit for operating modes and indication of operating modes, and the high-frequency pulse generating unit is configured to generate pulses with a frequency from 70 to 140 kHz, voltage discharge from 4 to 26 kV and discharge current from 0 to 250 μA. Moreover, due to the significantly higher output high-frequency current compared to similar devices from the prior art, the scope of application of the device can be expanded, according to the corresponding methods of treating diseases, the treatment of which requires high currents. A softer spark during the procedure can be obtained by increasing the pulse repetition rate to 140 kHz and filling the electrodes with neon instead of rarefied air.

The vacuum unit may preferably include at least a pump speed controller, a vacuum pump, an electronic pressure sensor, wherein the input of the pump speed controller is connected to the vacuum control output of the operating mode control unit and operation mode indication unit, and the output to the vacuum pump input, the control output of the vacuum pump is connected to a vacuum gauge, a liquid separator, and by means of a vacuum tube with an electrode, and the control output of the vacuum pump is connected to the microcontroller of the control unit I operating modes and indication of operating modes, and the evacuation unit is configured to create a residual pressure of 20 to 750 mm Hg.

Moreover, the inventive apparatus in various preferred forms of implementation can be equipped with a mechanism for automatic control of contact with the skin and / or mucous membrane associated with the control unit operating modes and indication of operating modes.

In the inventive apparatus, the dispensing unit of drugs can be equipped with a mechanism for the automatic dosed supply of the drug, while the input and output of the unit are associated with the corresponding output and input of the control unit operating modes and indication of operating modes. In the General case, the mechanism of the dosage of the drug can be implemented in semi-automatic or even in manual mode.

As already noted above, in the inventive apparatus, the control unit for operating modes and indication of operating modes is preferably configured to control the operating mode of the high-frequency pulse generating unit in accordance with the readings of the pulse sensor, preferably with the possibility of generating a high-frequency pulse current in resonance with the pulse frequency, as well as with the ability to control the operation of the vacuum unit in accordance with the readings

- 4 017426 measuring the blood pressure of the patient.

For the most optimal indication (visualization) of operating modes, the operating mode control and operating mode indication unit may preferably comprise operating mode indication means in the form of a display configured to display in real time the operating modes of the high-frequency pulse generating unit, the vacuum unit, and / or the issuing unit medicines, and indications of at least a heart rate sensor and a pressure sensor. The display, if necessary and provided by software, can also display the dependence of the readings of at least the pulse sensor and the pressure sensor (i.e. the reaction of the patient's body) on the exposure parameters (pulse frequency, voltage and discharge current, residual pressure) .

An additional expansion of functionality can be achieved by equipping it with electrodes of various kinds.

In the inventive apparatus, a reduction in leakage currents, by an order of magnitude compared to most known in the prior art, can be achieved by performing a housing made of plastic. Due to this, and also taking into account the compactness of the electronic circuits that form the basis of the hardware, the design of the claimed device as a whole is compact and lightweight, which makes it possible to use it both as a stationary and as a portable device.

The above and other advantages and advantages of the claimed multifunctional physiotherapeutic apparatus will be discussed in more detail below on one of the possible preferred, but not limiting examples of implementation with reference to the position of the drawing, which shows the structural block diagram of the claimed apparatus.

The drawing shows a structural block diagram of a multifunctional physiotherapeutic apparatus made in the form of a fully programmable complex, including a high-frequency pulse generation unit 1, a vacuum unit 2, a set of replaceable electrodes 3, connected to a high-frequency pulse generation unit 1 and with a vacuum unit 2 with the possibility of applying to the site of exposure to the patient’s body of high-frequency pulse current and vacuum, and a means for monitoring the patient’s condition, including means 4 for measuring blood pressure and means 5 measuring heart rate (heart rate sensor). The apparatus also comprises a unit 6 for dispensing drugs with a capacity 7 for storing the drug and a mechanism 8 for the dosed supply of the drug. The matching means is made in the form of a block 9 for controlling operating modes and indicating operating modes on the basis of the microcontroller 10. Block 9 for controlling operating modes and indicating operating modes is equipped with a display 11. Block 9 for controlling operating modes and indicating operating modes is configured to control a block 1 for generating high-frequency pulses , evacuation unit 2 and drug dispensing unit 6.

The high-frequency pulse generating unit 1 in the implementation form shown in the drawing includes a high-voltage adjustable voltage stabilizer 12, a high-frequency signal generator-generator 13, a high-frequency power amplifier 14, a high-voltage resonator transformer 15, d'Arsonval current measurement circuit 16. The input of the high-voltage adjustable voltage stabilizer 12 is connected to the output of the d'Arsonval current control unit 9 of the operating mode control and operation mode indication, and the output with the first input of the high-frequency power amplifier 14, the input of the high-frequency signal generator 13 is connected to the output of the d'Arsonval frequency control unit 9 control of operating modes and indication of operating modes, and the output with the second input of the amplifier 14 high-frequency power, the output of which is connected to the input of the high-voltage resonator-transformer 15, the control output of which is connected by a high-frequency cable to the electrode 3, and the control output is connected to the input of the d'Arsonval current measurement circuit 16, one of the outputs of which is connected to the d'Arsonval current indication means, made in the form of an arrow or digital microammeter 17 and included unit 9 control modes of operation and indication of operating modes, and the second with a microcontroller 10 block 9 control modes of operation and indication of operating modes. The high-frequency pulse generation unit 1 is configured to generate pulses with a frequency of 70 to 140 kHz, a discharge voltage of 4 to 26 kV and a discharge current of 0 to 250 μA.

The evacuation unit 2 in the embodiment shown in the drawing includes a pump speed controller 18, a vacuum pump 19, an electronic pressure sensor 20. The input of the pump speed controller 18 is connected to the vacuum control output of the unit 9 for controlling operating modes and indicating operating modes, and the output is to the input of the vacuum pump 19. The control output of the vacuum pump 19 is connected to a vacuum gauge 21 from the unit 9 for controlling operating modes and indicating operating modes, liquid separator 22 and by means of a vacuum tube 23 with an electrode 3, and the control output of the vacuum pump 19 is connected to the microcontroller 10 of the block 9 control modes of operation and indication of operating modes. The evacuation unit 2 is configured to create a residual pressure of 20 to 750 mm Hg.

The apparatus is also equipped with a mechanism 24 for automatic control of contact with the skin and / or mucous membrane associated with the unit 9 for controlling operating modes and indicating operating modes.

- 5 017426

The power of the claimed apparatus is provided from a power source 25 (voltage 110/220 V) through a rectifier connected to the first and second power supply units 27 with galvanic isolation. The output of the first power supply unit 27 with galvanic isolation is connected to the power input of the high-voltage adjustable voltage stabilizer 12 from the composition of the high-frequency pulse generating unit 1. The output of the second power supply unit 27 with galvanic isolation is connected through the respective stabilizers 28 to the power supply inputs of the pump speed controller 18 from the composition of the vacuum unit 2, the dosed drug delivery mechanism 8 from the drug delivery unit 6 and the microcontroller 10 from the operation mode control unit 9 and indication of operating modes.

The control unit 9 of the operating modes and indication of operating modes is also equipped with controls 29 (for example, in the form of a panel), which can be made in the form of keys, buttons, toggle switches, switches, etc., providing a clear, simple and convenient choice of control type (automatic control, semi-automatic control and manual control) and control mode (independent control of each of these blocks 1, 2, 6, control of each of these blocks 1, 2, 6 depending on the control of another block 1, 2, 6 in pairs , control Adding each of the blocks 1, 2, 6 depending on all other control units 1, 2, 6).

The output of the high-frequency pulse generating unit 1 (the output of the high-voltage resonator transformer 15) is connected to the electrode 3 by means of a high-frequency cable 30.

The inventive multifunctional physiotherapeutic apparatus operates as follows.

Using software, taking into account the intended field of application of this device, using software, a package of control types, control modes, operating modes of each of units 1, 2, 6, parameters of various types of exposure (d'Arsonval current, residual pressure and drug ), as well as the dependence of the exposure parameters of the d'Arsonval current on the patient’s heart rate (pulse) and vacuum on the patient’s blood pressure. For each of the operating modes, for example, a certain key or a certain combination of keys of the control organs 29 from the operating mode control unit 9 and the operation mode indication is brought into correspondence. For each type of control and each control mode, a corresponding element (toggle switch, switch, button, etc.) of control bodies 29 is also assigned.

Thus, a person prescribing and / or conducting physiotherapeutic procedures using the inventive device according to the indications for a particular patient (or in accordance with the doctor’s prescription) by manipulating the corresponding elements of the controls, selects one of the specified exposure programs, i.e. sets the initial type of control (e.g. automatic control), control mode (e.g. combined exposure to d'Arsonval currents, vacuum and drug, i.e. control of each blocks 1 of the formation of high-frequency pulses, 2 evacuations and 6 dispensing drugs depending on the control of all other blocks) and the operation mode of each of the blocks 1 of the formation of high-frequency pulses, 2 evacuations and 6 dispensing drugs (for example, constant for blocks 1 and 2 and intermittent for block 6). In addition, using the corresponding elements of the control bodies 29, parameters can be set for each of the effects (the value of the residual pressure, the total dose of the drug and the intensity of its delivery to the place of the procedure). In the General case, the block 9 control of operating modes and indication of operating modes is equipped with both organs (manipulator) of program control and control organs (manipulators) for individual user settings (for example, a physiotherapist).

From the set of replaceable electrodes 3, an electrode 3 suitable for the given procedure is selected, which is arranged for simultaneous controlled communication with the high-frequency pulse generating unit 1, the evacuation unit 2, and the drug dispensing unit 6. The patient is provided with any suitable means 5 for measuring heart rate (heart rate sensor) and means 4 for measuring blood pressure, which are connected to the microcontroller 10 of the unit 9 for controlling operating modes and indicating operating modes. The mechanism 8 of the dosed dispensing of the drug is connected to a container 7 containing the necessary drug.

After setting (selecting) the program and the specific parameters of all types of exposure from the control outputs of the microcontroller 10 from the control unit 9 of the operating mode control and display of the operating modes, the corresponding control signals are fed to the input of a high-voltage adjustable voltage stabilizer 12 (sets the voltage and current) and to the generator input -shaper 13 high-frequency signal (sets the frequency) from the block 1 of the formation of high-frequency pulses to the input of the controller 18 of the pump speed (sets the residual pressure) from the composition of the block 2 evacuation and the input of the mechanism 8 of the dosed supply of the drug from the block 6 of the issuance of the drug.

In accordance with the specified program in the block 1 of the formation of high-frequency pulses generated high-frequency pulses (with a frequency of 70 to 140 kHz, a discharge voltage of 4 to 26 kV and a discharge current of 0 to 250 μA) through a high-frequency cable 30 are fed to the electrode 3. Con

- 6 017426 the control of the d'Arsonval current parameters is carried out by means of an indication using a pointer or digital microammeter 17 of the data coming from the d'Arsonval current measuring circuit 16.

At the same time, in accordance with a predetermined program, by means of evacuation unit 2 through a vacuum tube 23 to the electrode 3 in the zone of exposure to the skin and / or mucous membrane of the patient using d'Arsonval current, a vacuum is created (residual pressure values from 20 to 750 mm Hg). The control of the residual pressure is carried out by indicating with the help of a pointer or digital vacuum gauge 21 the data coming from the vacuum pump 19.

Also, at the same time, in accordance with a predetermined program, by means of a unit 6 for dispensing a drug through a mechanism 8 for dispensing a drug, provided with an appropriate tube for supplying the drug to the exposure zone associated with the electrode 3 (not indicated by the figure in the drawing), to the current exposure zone d ' Arsonval with the rarefaction created there, a drug is dosed. Block 9 may include any suitable drug dose indicator (not shown in the drawing), which allows you to control the total prescribed dose of the drug, the dose of the drug remaining at the moment, the intensity of drug delivery to the site of exposure, etc.

Thus, the most effective conditions for the procedure are formed in the exposure zone, and the combined regime of all three types of exposure significantly reduces the treatment time, favorably (synergistically) affecting the effectiveness of the treatment as a whole.

Simultaneously with the control of the specified exposure parameters (by means of a microammeter 17, a vacuum gauge 21 and, if provided by the design, a dose indicator of the drug), the patient’s condition is monitored, including the patient’s reaction to the exposure. Control is carried out automatically according to the readings of means 5 for measuring heart rate (heart rate sensor) and means 4 for measuring blood pressure, the data from which are fed continuously to microcontroller 10. Based on the results of joint software processing in controller 10, data from microammeter 17, gauge 21, means 5 measurements of heart rate (pulse sensor) and means 4 measurements of blood pressure, if necessary, adjusting exposure parameters, the microcontroller 10 automatically ki generates the corresponding control signals to the generator-driver 13 of the high-frequency signal (correction of the pulse frequency), to the high-voltage adjustable voltage regulator 12 (voltage and current correction) and / or to the controller 18 of the pump speed (correction of the residual pressure). So, in particular, synchronization of high-voltage voltage is carried out automatically in accordance with the patient’s pulse rate (frequency modulation of effects that implements the principle of bioresonance in therapeutic procedures), i.e. the high-frequency pulse generating unit 1 generates a high voltage voltage in resonance with the pulse frequency.

In general, means may also be provided for adjusting the dose of the drug and / or the rate of delivery of the drug to the site of exposure.

The control results, as well as complete information on the operation of all blocks of the claimed apparatus, are displayed in any suitable and convenient visualized form (graphs, tables, etc.) on the display 11 of the block 9 for controlling operating modes and indicating operating modes in real time. If necessary, in block 9 of the control of operating modes and indication of operating modes, it is possible to provide means for storing (including for a predetermined time) data on the exposure parameters, on the readings of means 4 for measuring the patient’s blood pressure, means 5 for measuring the patient’s heart rate, adjustments / settings of exposure parameters according to the readings of these measuring instruments, etc. with the ability to view them in any convenient visualized form, as well as the ability to print them if necessary.

Given the design features of the component parts (blocks and elements) of the apparatus, it can be made quite compact and light. So, one of the samples of the device, made in accordance with the claimed combination of essential features, has overall dimensions of 320x250x115 mm and a weight of 4.5 kg. Due to this, the inventive apparatus together with a set of electrodes and other accessories can be placed in a special portable suitcase or bag.

The multifunctional physiotherapeutic apparatus presented above as an example with reference to the drawing should be considered only as a basic model, which suggests the possibility of further development within the claimed combination of essential features of a wide range of physiotherapeutic apparatuses for various functional purposes.

Information sources

1. Efanov O.I. Physiotherapy of dental diseases / O.I. Efanov, T.F. Dzanagova. - M., Medicine, 1980, p. 140-145.

2. Kulazhenko V.I. The use of vacuum and electrovacuum therapy in the complex treatment of patients with periodontal disease: guidelines / V.I. Kulazhenko, E.P. Barchuk, A.D. Besieger. Health Ukrainian SSR, Odessa. Honey. institute - Odessa, 1979, 23 p.

3. Muravyannikova Zh.G. Fundamentals of dental physiotherapy: textbook. allowance for the environment. honey. institutions / Zh.G. Muravyannikov; under the editorship of EM. Avanesyants. - Rostov n / a: Phoenix, 2002, p. 183-186, 197-198.

- 7 017426

4. The clerk V.S. Physiotherapy. Universal Medical Encyclopedia. / V.S. The eater - Мn .: Book House, 2008, p. 103-104.

5. Sinitsyn R.G. Development and application of the method of preventive treatment of generalized periodontitis with dosed vacuum / R.G. Sinitsyn, Yu.A. Fedorov, N.A. Ivchenko // Periodontology. - 1998, No. 1, p. 39-42.

6. Apparatus for vacuum therapy with microprocessor control FIZIOVAK-Expert. Access point 1Shr: // yya-1ss1sh | ka.gi / rpss / y | Lgo-ta5 / p11u51 Ouas-shrsg1 / op15.111t1.

7. Efanov O.I. Physiotherapy of dental diseases / O.I. Efanov, T.F. Dzanagova. - M., Medicine, 1980, p. 67-73.

8. Muravyannikova Zh.G. Fundamentals of dental physiotherapy: textbook. allowance for the environment. honey. institutions / Zh.G. Muravyannikov; under the editorship of EM. Avanesyants. - Rostov n / a: Phoenix, 2002, p. 68-76.

9. The clerk V.S. Physiotherapy. Universal Medical Encyclopedia. / V.S. The eater - Мn .: Book House, 2008, p. 188-189.

10. Maksimov A.V. Local darsonvalization. Therapeutic use of the apparatus Impulse-1: method. recommendations / St. Petersburg honey. Acad. postgraduate education; A.V. Maximov, V.V. Kiryanov, G.I. Egorova; under the editorship of L.A. Komarova. - SPb., 1995, 17 p.

11. AMD Blik. Access point 1Bp: // \ y \ y \ y.bethbx51.y / tey.p11p / rgoik1 / -c | s. |.

12. Darsonval DE-212KARAT. Access point yyr: //da1ka.gi/ai1s1e8/9/0/32/e1ek1go1egaru.Yt1? E1pkTure = 4

13. The apparatus of Darsonval ELAD. Access point yyr: //teyrtot.gi/teyrgot/trr_0007094.

14. Apparatus for darsonvalization of Н1СН ЕВЕЕЕЫСУ 2000 ее§10. Access point yyr: //uuu.ai11ta1ap.gi/so8te1o1odu/11079.Yt1.

15. The apparatus darsonval ST-217, S'Zhepa. Access point yyr: //sa1a1od.trotey.sh/ygt5/14801.Yt1.

16. Apparatus for darsonvalization Corona-M. Access point yyr: //uuu.yat-

8op.ty / sop1ep1Meu / 16/5 /.

17. Apparatus for darsonvalization of Sehapp. Access point yyr: //uuu.yag8op.gi/sop1ep1meu/14/5/.

18. Patent VI No. 2128527 C1, publ. 04/10/1999.

19. Complex for the treatment and diagnosis of inflammatory periodontal diseases KAPPARODONTOLOG. Access point yyr: //uuu.1pt.gi/teiute/ratoyop1.yt.

20. The 4-function harvester (D'Arsonval, Ionophoresis, Vacuumspray, Brossage) ΌΕ-204 C. Access point 1Wr: //5a1op.tad1s5ip.gi/rgojis15/ka1_105/p_283.r1it1.

21. Cosmetic 8-functional combine.

Access point yyr: //yyyyyyyyyyyyy/h8/sa1a1od/? Asyop = 8Yurgy & 1st = 2167.

22. The Rtoy-Zuyet EX200 block on a rack with a range. Block EDotk§1iop Rtoy on a rack with a range. Access point yyr: //uuu.rgo! So8teis8.ot / pb / y1e / 1OKHTO-SOMEP-kotbaup1.x18.

23. Cosmetic combine M1CHEEEE 9000A.

Access point yyr: //uuu.ai11ga1ap.gi/so8te1o1odu/12452.yt1.

24. Cosmetic combine E-8800V. Access point yyr: //uuu.ai1ya1ap.gi/so8te1o1odu/11301.Yt1.

25. Cosmetic combine CE2ATOIE I 8003.

Access point yyr: //uuu.ai11ga1ap.gi/so8te1o1odu/19360.Yt1.

26. V1OMAK (IEEED SOMV1 MAX). Access point Nyr: //hhh.5a1opets1rtep1ey.sot/

27. Cosmetic combine E-920P. Access point yyr: //uuu.8a.gi/rpp1/14868.yr.

28. Cosmetic combine harvester EX-899. Access point yyr: //uuu.8a.gi/rpp1/14794.yr.

29. Cosmetic processor EX-9001 (4 in 1). Access point yyr: //uuu.8a.gi/rpp1/14859.yr

30. Cosmetology processor EX-898 (5 in 1).

Access point yyr: //uuu.ai11ga1ap.gi/so8te1o1odu/14858.Yt1.

31. A.S. 8I No. 1659061 A1, publ. 06/30/1991.

32. A.S. 8I No. 1803152 A1, publ. 03/23/1993.

33. Patent VU No. 1172, publ. 06/14/1996.

34. Patent VI No. 2017506 C1, publ. 08/15/1994.

Claims (8)

CLAIM 1. A multifunctional physiotherapeutic apparatus made in the form of a complex including a high-frequency pulse generating unit, an evacuation unit, at least one, optionally replaceable, electrode connected to a high-frequency impulse generating unit and with an evacuation unit with the possibility of feeding to the place of exposure on the patient’s body high-frequency pulse current and vacuum, and a means for monitoring the patient’s condition associated with the high-frequency pulse generation unit and with the vacuum unit h Through a matching means, characterized in that it further comprises a medication dispensing unit associated with the matching means, the patient condition monitoring means includes at least a blood pressure measuring means and a heart rate measuring means, the matching means is made in the form of an operating mode control unit and indication of modes - 8 017426 bots based on a microcontroller with the ability to control a high-frequency pulse generation unit, a vacuum unit, and a drug dispensing unit, the type of control being selected from the group including automatic control, semi-automatic control and manual control, the control mode is selected from the group including independent control of each of these blocks, control of each of these blocks depending on the control of another block in pairs, control of each of the blocks, depending t control all other blocks, and the operation mode of each of these blocks is selected from the group including continuous, intermittent and wave action, while at least one electrode is configured to simultaneously communicate with the high-frequency pulse generating unit, the vacuum unit, and the drug dispensing unit funds. 2. The apparatus according to claim 1, characterized in that the high-frequency pulse generating unit includes at least a high-voltage adjustable voltage stabilizer, a high-frequency signal generator, a high-frequency power amplifier, a high-voltage resonator-transformer, a d'Arsonval current measurement circuit, and an input high-voltage adjustable voltage regulator is connected to the output of the current control d'Arsonval control unit operating modes and operation modes, and the output with the first input of the amplifier of RF power, the input of the generator of the high-frequency signal is connected to the output of the frequency control d'Arsonval of the control unit of the operating modes and indication of operating modes, and the output is from the second input of the amplifier of the high-frequency power, the output of which is connected to the input of the high-voltage resonator-transformer, the control output of which is connected by the high-frequency a cable with an electrode, and the control output with the input of the d'Arsonval current measurement circuit, one of the outputs of which is connected with the d'Arsonval current indication means preferably in the form of an arrow or digital microammeter from the control unit for operating modes and indication of operating modes, and the second with a microcontroller of the control unit for operating modes and indication of operating modes, and the high-frequency pulse generating unit is configured to generate pulses with a frequency from 70 to 140 kHz, discharge voltage from 4 to 26 kV and discharge current from 0 to 250 μA. 3. The apparatus according to one of claims 1 or 2, characterized in that the evacuation unit includes at least a pump speed controller, a vacuum pump, an electronic pressure sensor, while the input of the pump speed controller is connected to the vacuum control output of the control unit operating modes and indication of operating modes, and the output with the vacuum pump inlet, the control output of the vacuum pump connected to the vacuum gauge from the control unit for operating modes and indication of operating modes, a liquid separator and by means of a vacuum cutting the electrode, and controlling the output of the vacuum pump is connected to the microcontroller modes of operation of the control unit and indication of operating modes, wherein the vacuum unit is adapted to generate a residual pressure value of 20 to 750 mm Hg 4. The apparatus according to one of claims 1 to 3, characterized in that it is equipped with a mechanism for automatically controlling contact with the skin and / or mucous membrane associated with the control unit operating modes and display operating modes. 5. The apparatus according to one of claims 1 to 4, characterized in that the unit for dispensing drugs is equipped with a mechanism for the automatic dosed supply of the drug, while the input and output of the unit are associated with the corresponding output and input of the control unit for operating modes and indication of operating modes. 6. The apparatus according to one of claims 1 to 5, characterized in that the control unit for operating modes and indication of operating modes is preferably configured to control the operating mode of the high-frequency pulse generating unit in accordance with the readings of the pulse sensor, preferably with the possibility of generating a high-frequency pulse current in resonance with the pulse rate, as well as with the ability to control the operating mode of the evacuation unit in accordance with the readings of the patient’s blood pressure measuring device. 7. The apparatus according to one of claims 1 to 6, characterized in that the control unit for operating modes and indication of operating modes is configured to control the operating mode of the vacuum unit in accordance with the readings of a patient’s blood pressure measuring device. 8. The apparatus according to one of claims 1 to 7, characterized in that the control unit for operating modes and indication of operating modes comprises means for indicating operating modes, preferably in the form of a display, configured to display in real time the operating modes of the high-frequency pulse generating unit, the unit evacuation and / or block dispensing drugs and indications of at least a pulse sensor and a pressure sensor.