RU2713137C1 - Device for magnetic- and photochromic-ultrasonic irrigation of biological tissues with drugs - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment and can be used for antibacterial ultrasonic irrigation of biological tissues with a drug solution with simultaneous complex stimulation of their regeneration by high-coercive magnetic field, photochromic radiation and high-amplitude ultrasound. Device comprises a bearing housing, comprising an ultrasonic compartment with an ultrasonic piezoceramic transducer mounted therein, connected to a waveguide-tool, provided on one side, in the O-O offset assembly, a nozzle connected by means of a supply tube with a syringe, and on the other – a through axial channel having a helical thread on the working area, wherein the device is made in the form of an injector consisting of the right and left halves, forming, at connection, the bearing housing, additionally comprises a photochromic compartment with a super-bright or ultra-bright semiconductor light emitting in the visible part of the spectrum, e.g. "white", "red", "yellow", "green", "blue" spectrum, power compartment with linear reciprocating actuator installed in it, including support rod and pusher, conjugated with piston of disposable syringe installed in support cradle, elastically deformable elements of which are made in pairs on the right and left halves of the bearing body and fixing the syringe body, on the waveguide tool, the helical thread on the working section is made rolling on the terminal section in the cone-shaped radiating nozzle, formed in the form of a stepped pyramid, the base of which faces the nozzle opening, and the vertices of the rectangular annular projections are tangent to the straight line forming the cone, wherein annular surfaces of the projections facing the nozzle opening are made radiating along the waveguide axis of the tool, and perpendicular to them annular surfaces of protrusions are made radiating radially to axis of waveguide-tool, wherein in handle of bearing housing there installed are control module of modes "ultrasonic spraying" and "photochromic radiation", main trigger button, combined with buttons for selecting, switching on and off modes "ultrasonic spraying" and "photochromic radiation”, and on supply tube, conjugated with tip of syringe, high-coercive permanent magnet made, for example, in form of ring from alloy neodymium-iron-boron (NdFeB) with radial direction of magnetization is installed.

EFFECT: use of the invention widens the range of products for antibacterial ultrasonic irrigation.

1 cl, 9 dwg

Description

The invention relates to medicine and medical equipment and can be used in various branches of clinical medicine in surgery and conservative therapy of wound surfaces and foci of inflammation of various origins using antibacterial ultrasonic irrigation of biological tissues with a medicinal solution with complex stimulation of their regeneration by a highly coercive constant magnetic field, photochromic radiation of the visible part spectrum and high-amplitude low-frequency ultrasound.

A device is known for ultrasonic irrigation of biological tissues with a medicinal solution [1], comprising a container with a medicinal solution, an ultrasonic generator, an acoustic unit located in a bearing housing with an ultrasonic piezoceramic transducer connected to a waveguide-tool with a through axial channel conjugated on one side through a supply opening and a supply tube, with a medicinal solution supply system in the form of a separately located container with a solution, and on the other hand, at its working end SRI is mechanically connected with the spray tip nozzle provided with, on the inside, with a chamfer forming an angle 60-75 °.

However, the known device has disadvantages associated with:

- the presence of a complex electromechanical system for turning on and off the supply of the drug solution into the axial channel of the waveguide tool for its subsequent atomization by ultrasound by a mechanically connected spray nozzle tip;

- the inconvenience of simultaneously manipulating the acoustic unit with the waveguide-tool and controlling the flow of the drug solution at different stages of its ultrasonic atomization and spraying onto biological tissues, due to the presence of a separate container with the drug solution, which complicates the treatment process and reduces the quality of ultrasonic irrigation of biological tissues;

- the risk of injury to the patient during the treatment procedure, due to the probability of destruction of the zone of the mechanical connection "waveguide-tool-spray nozzle tip", which is a region of stress concentration under conditions of its high-amplitude cyclic deformation with the frequency of ultrasonic vibrations;

- the inability to fully stimulate the reparative regeneration of pathologically changed biological tissues during their ultrasonic irrigation with an activated drug solution, for example, in combination with a highly coercive constant magnetic field and photochromic radiation of the visible part of the spectrum, for example, “white”, “red”, “yellow” , "Green", "blue";

- the complexity of the formation of a layer of a drug solution of "effective" thickness, covering the radiating surface of the nozzle section of the waveguide-tool, which reduces the possibility of obtaining a stable torch sprayed by ultrasound, a drug solution in the form of a fine aerosol.

A device is known for ultrasonic irrigation of biological tissues with a medicinal solution [2], comprising a container with a medicinal solution, an ultrasonic generator, an acoustic unit located in a bearing housing with an ultrasonic piezoceramic transducer connected to a waveguide-tool, made in the form of an integral part with a through axial channel associated with on the one hand, through the inlet and the supply tube, with the drug solution supply system in the form of a separately located container with the solution, and with the other oy- with the spray nozzle having a central opening and arranged symmetrically with inner and outer sides thereof, with a chamfer forming an angle 60-75 °.

However, this device is practically not feasible, due to the impossibility of manufacturing a waveguide tool made in the form of a solid part with a through axial channel, conjugated on one side with a supply opening perpendicular to it, and on the other with a spray nozzle having the central hole and symmetrically located chamfers from its inner and outer sides.

The closest in technical essence and the achieved result to the claimed invention is a device for ultrasonic irrigation of biological tissues with a medicinal solution [3], containing a container with a medicinal solution, an ultrasonic generator, an acoustic unit located in a bearing housing with an ultrasonic piezoceramic transducer connected to a waveguide-instrument, equipped with a through axial channel, on the terminal nozzle portion of which a screw thread is made, and in the region of the vibration unit, a lead-in hole with a fitting paired with a feed tube connected to the solution supply system in the form of a disposable syringe filled with a drug solution and rigidly fixed to the carrier body by means of a holder.

However, the known device (prototype) has disadvantages associated with:

- uneven delivery of the drug solution to the irrigated biological tissues, which violates the ultrasonic atomization regimes, determining the aerosol or jet-aerosol form of the spray torch, due to the difficulty in accurately providing the volume and speed of the solution required for ultrasonic atomization, due to uneven finger pressure the doctor’s hands on the piston of a disposable syringe with a medicinal solution, while at the same time holding the acoustic unit with the holder attached to it with the same hand Prica and management complexity torch spray solution when its direction on irrigated biological tissue;

- the complexity of the implementation, during the treatment session, the rapid change in the type of drug solution and the installation of a disposable syringe, again filled with the drug solution, as well as the rapid removal of the used syringe at the end of the irrigation of biological tissues;

- the inability to fully stimulate the reparative regeneration of pathologically altered biological tissues during their ultrasonic irrigation and spraying with an activated drug solution, for example, in combination with a highly coercive constant magnetic field and photochromic radiation of the visible part of the spectrum, for example, “white”, “red”, “ yellow "," green "," blue ";

- the complexity of the formation of a layer of a drug solution of "effective" thickness, covering the radiating surface of the nozzle section of the waveguide-tool, which reduces the possibility of obtaining a stable torch sprayed by ultrasound, a drug solution in the form of a fine aerosol.

The objective of the invention is to optimize the design and composition of the device for magneto-and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution.

The objective of the invention is achieved in that a device for magneto-and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution containing a container with a medicinal solution, an ultrasonic generator, an acoustic unit located in a bearing housing with an ultrasonic piezoceramic transducer connected to a waveguide-tool equipped with a through axial channel, on the terminal nozzle portion of which a screw thread is made, and in the region of the vibration unit, a supply hole is made with a fitting mated a feeding tube connected to the solution supply system in the form of a disposable syringe filled with a medicinal solution and rigidly fixed to the carrier body by means of a holder, characterized in that it is made in the form of an injector consisting of right and left halves, when connected, forming a carrier case, including : ultrasonic compartment with an installed ultrasonic piezoelectric transducer connected to the waveguide tool; a photochromic compartment with a superbright or ultrabright semiconductor LED installed in it, emitting in the visible part of the spectrum, for example, “white”, “red”, “yellow”, “green”, “blue”; a power compartment with a linear reciprocating actuator installed in it, the support rod and pusher of which are connected to the piston of a disposable syringe installed in the support tool, the elastically deformable elements of which, made in pairs on the right and left halves of the bearing body, fix the syringe body, the waveguide tool is provided, on the one hand, in the OO displacement unit with a fitting connected by means of a supply tube with a syringe, and on the other, with a through axial channel having a working section a screw thread, passing at the end section of the waveguide-tool into a radiating nozzle, made in the form of a step-like shape of pyramid-shaped rectangular annular protrusions uniformly increasing in diameter, the vertices of which are tangent to the straight line forming the cone, and the radiating surfaces of the rectangular annular protrusions face both the side of the cone base nozzle hole, and axisymmetrically to the axis of the waveguide-tool, in addition to the handle of the bearing housing are installed, the mode control module "at ultrasonic atomization "and" photochromic radiation ", as well as the main start button, combined with the corresponding buttons that allow you to: select, enable and disable the" ultrasonic atomization "and" photochromic radiation "modes, in addition to the portion of the delivery tube that is interfaced with the tip of the syringe, A highly coercive permanent magnet is installed, made, for example, in the form of a ring of neodymium-iron-boron (NdFeB) material with a radial direction of magnetization.

Analysis of patent information showed that at the filing date of the application for the invention, the design of the device for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution with the indicated distinctive features is not known.

The invention is illustrated by drawings, which depict:

- in FIG. 1 is a schematic representation of a general view of a device for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution (hereinafter referred to as the device);

- in FIG. 2 - image of the device, left view (Fig. 1);

- in FIG. 3 - shows a section aa of the device (Fig. 2);

- in FIG. 4 - shows a section BB of the device (Fig. 3);

- in FIG. 5 is a schematic illustration of zone I of the device — the end section of the waveguide-tool in the region of the radiating nozzle, made in the form of a step-like shape of pyramid-shaped rectangular annular protrusions uniformly increasing in diameter with radiating surfaces facing both the base of the nozzle hole cone and axisymmetrically toward the central the axis of the waveguide tool (Fig. 3);

- in FIG. 6 is a schematic illustration of zone II of the device — the interface portion “syringe tip — feeding tube — annular highly coercive permanent magnet” (Fig. 3);

- in FIG. 7 is a schematic representation, for example, of magneto- and photochromic-ultrasonic irrigation of the oropharynx with a medicinal solution in the conservative treatment of chronic tonsillitis, pharyngitis, adenoiditis, laryngitis and other inflammatory diseases of the ENT organs;

- in FIG. 8 is a schematic representation, for example, of magneto- and photochromic-ultrasonic irrigation with a medicinal solution of a wound surface in the treatment of wounds and foci of inflammation.

- in FIG. 9 is an image of a sample of the apparatus of magneto- and photochromic-ultrasound “Aeroton”

The device for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution (Fig. 1 - Fig. 9), is functionally an injector 1 made in the form of a “gun”, connected to the control unit of the Aeroton magneto- and photochromic-ultrasound therapy device 2 (hereinafter referred to as the control unit of apparatus 2), intended for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution due to the use of the energies of high-amplitude low-frequency ultrasound, a highly coercive constant th magnetic field and the photochromic high-brightness radiation or ultra semiconductor LEDs emitting in the visible spectrum, for example, "white", "red", "yellow", "green", "blue".

The injector 1, by connecting the right 3 and left 4 halves of the casing forms a supporting casing 5, which includes: an ultrasonic compartment 6 with an installed ultrasonic piezoceramic transducer 7 with an attached waveguide-tool 8; photochromic compartment 9 with a superbright or ultrabright semiconductor LED 10 placed therein, emitting in the visible part of the spectrum, for example, “white”, “red”, “yellow”, “green”, “blue” through the window 11 in the main body 5. Radiation possible both in continuous and intermittent mode. The semiconductor LED 10 is designed on the one hand to illuminate the visible part of the spectrum, for example, the “white” area of irrigation of biological tissues in the depths of infected cavities (oropharynx, nasopharynx and other body cavities), as well as superficially located foci of infection. On the other hand, LED 10 is designed to irradiate biological tissues with radiation of the visible part of the spectrum, for example, “white”, “red”, “yellow”, “green”, “blue” simultaneously with ultrasonic irrigation of biological tissues; power compartment 12 with an actuator 13 installed therein (systems, for example, screw-nut), designed for smooth linear reciprocating movement of the power rod 14 and the supporting rod 15 and the pusher 16 connected to the piston 17 of the disposable syringe 18 with a medicinal solution, which is installed in the support box 19 and fixed in it with the help of elastically deformable elements 20, made (in pairs) on the right 3 and left 4 halves of the bearing body 5. The waveguide tool 8 is provided, on the one hand, in the displacement unit O- O with a fitting 21, connected by means of a supply tube 22 with the tip of the syringe 18, and with the other through the axial channel 23, which has a screw thread 24 at the working section, passing, in the end section of the waveguide-tool 8, into a cone-shaped radiating nozzle 25 made in the form of a stepped shape of pyramidally arranged rectangular annular protrusions 26 uniformly increasing in diameter, the vertices of which are tangent to a straight line forming a cone 27. Moreover, annular and increasing protrusions 26 in diameter, facing toward the nozzle hole cone is formed by annular surfaces 28 (radiating along the axis of the waveguide-tool 8), as well as perpendicular to them, annular surfaces 29 (radiating radially), due to linear and "volume" deformation, in the field of sinusoidal ultrasonic vibrations, perforated waveguide tool 8 in accordance with its geometry and material. This geometry of the cone-shaped radiating nozzle 25 creates the best conditions for a “cascade” distribution of the supplied drug solution along its generatrix, represented by a stepped shape and pyramid-shaped surfaces in the form of rectangular annular protrusions 26, forming, in the ultrasound field, a solution layer of an “effective” thickness covering the radiating surface and providing ultrasonic spraying of the drug solution in the form of a fine aerosol.

A highly coercive permanent magnet 30, made in the form of a ring of NdFeB alloy (15x7x14) with a radial direction of magnetization (Fig. 6), allowing induction of induction in the volume of the drug solution supplied to tube 22, is installed in the portion of the supply tube 22, which is conjugated with the tip of the syringe 18; magnetic field of the order of 30-50 MT.

In the cavity of the handle of the main body 5, which is the control compartment 31, a control module for ultrasonic atomization and photochromic radiation 32 is installed, connected to the start button 33, which allows the choice of modes: on / off mode "ultrasonic atomization" (button 33.1) and on / off mode "Photochromic radiation" (button 33.2).

A device for magneto-and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution works as follows. The waveguide tool 8, through a hairpin, is connected to a piezoceramic transducer 7 connected to the board of an ultrasonic generator of the control unit of apparatus 2. A disposable syringe 18 (20 ml in volume) is filled with a medicinal solution, for example: ozone / NO-containing physiological saline; schungite water with hydrated fullerene C60; 5-10% ozonide / NO-containing oil-in-water oil emulsion; ozonated vegetable oil (olive, sunflower, etc.) or other targeted medicinal solution recommended by the attending physician. A filled syringe 18 with a maximum reach Lmax of the piston 17 is installed with a slight pressure into the support box 19 (Fig. 4), overcoming the resistance of the elastically deformable elements 20 made (in pairs) on the right 3 and left 4 halves of the bearing housing 5, providing reliable fixation syringe 18. After that, the actuator 13 is turned on and by varying, ranging from "Lmin to Lmax" and vice versa, the size of the smooth reciprocating movement of the power rod 14 and the support rod 15, as well as the plunger 16 rigidly connected with them, provide a detachable Connections 17 of the syringe plunger flange 18 with the pusher 16 (FIG. 3 and FIG. 4). Then, the movement of the actuator 13 is stopped and put into standby mode. One of the ends of the supply tube 22, with the installed ring highly coercive permanent magnet 30, is mated to the tip of the syringe 18, and its other end is connected to the fitting 21 of the waveguide-tool 8, which communicates with the through axial channel 23, which has a screw thread 24 at its working section, passing into a cone-shaped radiating nozzle 25 (Fig. 3 and Fig. 5). Then, on the control unit of the apparatus 2, by the corresponding switch, the “standby” mode for the ultrasonic generator board and for the photochromic radiation board are connected, respectively associated with the “ultrasonic atomization” and “photochromic radiation” control module 31. Next, on the control unit apparatus 2, the corresponding switch, set the mode of "photochromic radiation" by selecting the "white" spectrum to illuminate the interested area of biological tissues. The injector 1 is brought, at the required distance, to the area of magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution, for example, to the cavities of the oropharynx, nasopharynx (Fig. 7) and other cavities of the body or to a surface located focus of infection (Fig. 8). Sequentially turn on button 33.2 (on-off of the “photochromic radiation” mode on the common start button 33), activating the photochromic radiation board in the “standby” mode, and then the start button 32 itself, starting the timer of the control unit of apparatus 2 with photochromic lighting, within about 1 minute, the focus of infection by radiation of the "white" spectrum to diagnose the state of biological tissues. Upon completion of the specified exposure, the button 33.2 is turned off automatically.

Depending on the phase of the wound or inflammatory process, for the photochromic irradiation of biological tissues, the visible radiation spectrum is selected from the ranks “red”, “yellow”, “green”, “blue”, each of which has a specific and systemic positive effect on the course of reparative regeneration biological tissues in the focus of infection with local exposure to semiconductor LEDs (N.V. Serov, 1993; E.F. Levitsky, 1998 and others). Choosing a spectrum of radiation from the series “red”, “yellow”, “green”, “blue” for photochromic irradiation of biological tissues, for example, “red”, “yellow” (1 and 2 phases of the wound healing process) or “green”, “blue ”(Phases 2 and 3 of the wound healing process), first turn on the button 33.2 (on / off the“ photochromic radiation ”mode on the common start button 33), activating the photochromic radiation board in the“ standby ”mode, and then the start button 33 by starting the timer of the control unit of apparatus 2 that implements photochromic irradiation of biological tissues with an exposure of 2-3 minutes recommended by the attending physician. After that, with a delay of several seconds, the button 33.1 is sequentially turned on (on / off the “ultrasonic atomization” mode on the common start button 33), activating the ultrasonic atomization board in the “standby” mode, and then the start button 33 itself, starting the timer of the control unit of apparatus 2, which implements ultrasonic spraying of a medicinal solution with spraying it with a torch of biological tissues at an exposure of 1-2 minutes recommended by the attending physician.

In this case, the voltage from the power source is supplied simultaneously to the ultrasonic piezoceramic transducer 7 with an attached waveguide-tool 8, coordinated and operating in the resonant mode (f = 25-30 kHz), providing a high-amplitude ultrasonic effect on the drug solution during the irrigation of biological tissues as well as on the actuator 13, the pusher 16 of which is connected with the flange of the piston 17 of the syringe 18. Provided by the actuator 13, the movement of the piston 17 is carried out within a pre-selected distance I “Lmax” relative to the fixed body of the syringe 18 with possible stops that determine the volume of the drug solution sent by it to the feed tube 22. At the same time, the drug solution is delivered smoothly with the required speed from the syringe 18 into the tube 22 with an annular highly coercive magnet 30 installed on it ( Fig. 6), the magnetic field of which with induction of the order of 30-50 mT, realizes the preliminary activation of the physicochemical properties of the flowing and magnetizable solution (K.S. Trincher, 1967; Yu.A. Colds, 1970; IN AND. Klassen, 1978 and others). Further, the activated drug solution enters through the nozzle 21 into the axial channel 23 of the oscillating waveguide-tool 8 with a screw thread 24 (Fig. 3 and Fig. 5), where it, filling its volume, is additionally activated due to pronounced cavitation with the formation of many nuclei cavitation arising in the constrained conditions of the capillary channel, having a large area reflecting "counter" and oscillating with the ultrasonic frequency of the faces of the screw thread 24. Magnetized and additionally activated by scoring, in the field of high amplitude ultrasonic ultrasound, a solution to which the tangential component of the "vortex" movement, which contributes to a uniform distribution of the solution in the cavities of complex geometry, is further communicated in the volume of the screw cutting 24, then enters the region of the oscillating cone-shaped radiating nozzle 25. The radiating nozzle 25 is made in the form of a uniformly increasing step in the diameter of the pyramidally arranged rectangular annular protrusions 26, the generators of which oscillate radially relative to the axis of the waveguide tool enta 8, and the generatrices of the annular surfaces 28 facing the base of the cone-shaped radiating nozzle 25 oscillate longitudinally along the axis of the waveguide-tool 8. Spreading, in the form of a "cascade" of the liquid phase, along the inner cavity of the cone-shaped radiating nozzle 25, the layer of the drug solution reaches the threshold values - the "effective" thickness of the layer covering the inner radiating surface of the nozzle 25, which depends on the frequency and amplitude of ultrasonic vibrations, the viscosity of the liquid, its surface tension, and geometry from uchayuschey surface and so forth. (VN Khmelev, A.V. Shalunov, A.V. Shalunova, 2010). This increases the efficiency of the process of ultrasonic spraying of the drug solution in the form of a finely dispersed aerosol formed by cavitating bubbles directed towards the base of the cone-shaped radiating nozzle 25 and then in the form of an aerosol plume sprayed onto biological tissues. The kinetic energy of the aerosol plume of the medicinal solution is sufficient for distant sanitation of irrigated biological tissues from a distance of up to 200 mm (between the radiating nozzle 25 of the waveguide tool 8 and the surface of the foci of infection), ensuring a "sparing" sanitation regime in relation to a granulating wound or focus of inflammation. Programmable, by the control module 31, varying the modes of ultrasonic atomization (the magnitude and speed of the power rod 14 of the actuator 13), allows you to control the process of obtaining an aerosol plume of the drug solution of the desired dispersion (5-30 μm), irrigating the biological tissue of the infection site. Upon completion of photochromic irradiation and ultrasonic nebulization of the drug solution in the process of magneto- and photochromic-ultrasonic irrigation of biological tissues, the corresponding buttons 33.2 and 33.1 are turned off automatically. After the treatment session, the injector 1 is diverted from the area of magneto- and photochromic-ultrasonic irrigation with a medicinal solution of biological tissues, and the control unit of the apparatus 2 is turned off. The outer surface of the injector 1 and the waveguide-tool 8 in contact with infected biological tissues, as well as the body of the control unit of the apparatus 2, are subjected to processing in accordance with the regulations MU287-113-98 “Methodological instructions for the disinfection, pre-sterilization cleaning and sterilization of medical devices”.

A device for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution can be used in therapy, a complex of physical factors and drugs, a wide range of inflammatory diseases, wounds and wound infections in various branches of clinical medicine: otorhinolaryngology, obstetrics and gynecology, surgery, oncology , diabetology, dermatovenerology, military and sports medicine, etc.

The proposed device is implemented in the form of a prototype of the apparatus of magneto- and photochromic-ultrasound physiotherapeutic “Aeroton”, intended for use in clinical and outpatient settings, including as part of commercially available medical devices such as “Tonsillor”, “Gineton”, “Caviton”, "Stomaton", "Oncodes", etc. (developer and manufacturer of the Scientific and Production Enterprise "Metromed", Omsk).

To put into production the proposed device for magneto- and photochromic-ultrasonic irrigation of biological tissues with a medicinal solution implemented in the Aeroton apparatus, the following design documents were developed and approved: design documentation, program and methods for acceptance of technical and clinical tests of the product, instructions for use of the product, etc. At present, the device, as part of the prototype apparatus "Aeroton", in the prescribed manner, has successfully passed state acceptance technical tests in an accredited test facility Roszdravnadzor (SibNIITsMT, Novosibirsk).

Sources of information

1. RF patent 1801017 "Device for ultrasonic irrigation with medicinal substances", cl. A61M 35/00, 1993.

2. RF patent 2119804 "Device for ultrasonic irrigation with medicinal substances", cl. A61M 35/00, 1998.

3. RF patent 2393881 “Device for ultrasonic irrigation of biological tissues with medicinal substances”, cl. A61M 11/00, A61M 35/00, 2010.

Claims (1)

 A device for magneto- and photochromic-ultrasonic irrigation of biological tissues with solutions of medicinal substances, comprising a supporting body, including an ultrasonic compartment with an ultrasonic piezoceramic transducer installed in it, connected to a waveguide-tool, equipped on one side of the O-O bias unit with a fitting connected by a feed a tube with a syringe, and on the other, a through axial channel having a screw thread on the working section, characterized in that the device is made in the form of an injector, consisting of the equal and left halves that form the supporting body when connected, additionally contains a photochromic compartment with an ultra-bright or ultra-bright semiconductor LED installed in it, emitting in the visible part of the spectrum, for example, “white”, “red”, “yellow”, “green”, “ blue ”spectrum, power compartment with a linear reciprocating actuator installed in it, including a support rod and a pusher associated with a piston of a disposable syringe installed in a support tool tray, elastically deformable elements of which o are made in pairs on the right and left halves of the supporting body and the syringe body is fixed, on the waveguide-tool, screw cutting at the working section is made passing at the terminal section into a cone-shaped radiating nozzle formed in the form of a stepped pyramid, the base of which faces the nozzle hole, and the vertices are rectangular annular protrusions are made tangent to a straight line forming a cone, while the annular surfaces of the protrusions facing the nozzle hole are made radiating along the axis of the wave a-instrument, and the annular surfaces of the protrusions perpendicular to it are made radiating radially to the axis of the waveguide-instrument, while in the handle of the bearing body there are installed an ultrasonic atomization and “photochromic radiation” control module, a main start button combined with selection, power and the “ultrasonic atomization” and “photochromic radiation” modes are turned off, and a high-coercive permanent magnet mounted, for example, in vie, is mounted on the supply tube paired with the tip of the syringe e rings alloy of neodymium-iron-boron (NdFeB) with radial magnetization direction.

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