RU2452454C1 - Apparatus for non-contact ultrasonic biotissue treatment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to apparatuses for non-contact ultrasonic biotissue treatment and is applicable for the purpose of conservative therapy in various fields of clinical medicine. The apparatus comprises an ultrasonic generator and an acoustic system integrated in a bearing carrier and comprising a low-frequency longitudinal ultrasonic piezoelectric converter with an oscillation concentrator acoustically coupled with a radiator in the form of a disc-shaped waveguide representing a bent oscillating disc of a stepped section, and a reflector. A front emitting surface of an emitter comprises phase-compensating collars provided with radial circularly spaced threaded drainage spray orifices provided with cone nozzles, and also ring grooves alternating with the phase-compensating collars. On a back emitting surface of the emitter and opposite to the phase-compensating collars of the front emitting surface, there are connected shall-depth ring sockets coupled by radial slots. The washer reflector is integral with the back emitting surface of the emitter and forms the connected shall-depth ring sockets closed by ring ducts connected through a supply pipe system with a hydraulic system comprising an infusion unit with a medical solution.

EFFECT: using the invention enables functional enhancement ensured by non-contact ultrasonic treatment of biotissues of the greater area and surface irregularity both by a one-side uniform emission field of the greater area, and by ultrasonic aerosol spraying of the activated medical solution by a spray cone.

4 cl, 6 dwg

Description

The invention relates to medicine, namely to devices for non-contact ultrasonic treatment of biological tissues, including aerosol treatment, can be used in conservative therapy in various fields of clinical medicine, cosmetology, sporting, medical and veterinary biotechnology, as well as in agriculture, petrochemicals, etc. .

A device is known for ultrasonic treatment of biological tissues [1], used in conservative therapy, containing an ultrasonic generator and an acoustic system located in a supporting housing, a low-frequency ultrasonic piezoelectric transducer of a longitudinal type with an oscillation concentrator, and an emitter in the form of a waveguide tool with a developed emitting end.

However, this device, which uses a waveguide tool with a developed emitting end face, which has a small diametrical size comparable with the size of the voiced organs in the treatment of ENT organs, is intended for contact sounding of biological tissues modified by the process and cannot be used for non-contact ultrasonic treatment of biological tissues, as well as sections of pathologically altered tissues of a large area having a surface unevenness. This device cannot be used for ultrasonic aerosol treatment of large areas of the patient’s body surface.

A device is known for ultrasonic treatment of biological tissues, used to implement one of the stages of the liposuction process, namely surface contact ultrasonic treatment of the skin over the liposuction region [2], containing an ultrasonic generator and an acoustic system located in a carrier body, including a low-frequency longitudinal-type ultrasonic piezoelectric transducer , a vibration concentrator acoustically coupled to a radiator in the form of a disk-shaped waveguide-tool with developed radiation teaching end, representing a discontinuous concentric wavy surface in the form of a maze.

However, this device, which uses an emitter in the form of a waveguide-tool with a developed emitting end in the treatment process, is intended for contact sounding of biological tissues changed by the process and cannot be used for non-contact surface ultrasonic treatment of areas of pathologically altered body tissues of large area with significant surface unevenness, in including for their ultrasonic aerosol treatment.

The closest in technical essence and the achieved result to the claimed invention is a device for non-contact ultrasonic treatment of biological tissues, containing an ultrasonic generator and an acoustic system located in a bearing housing, including a low-frequency ultrasonic piezoelectric transducer of longitudinal type with an oscillation concentrator, acoustically connected to the radiator in the form of a disk-shaped waveguide - a tool, which is a bending-oscillating disk stepwise variable o section and reflector [3].

This device implements the process of ultrasonic drying of hair by means of surface non-contact ultrasonic treatment in a heated air environment and allows simultaneous non-contact action on the hair with ultrasonic vibrations generated both by the front surface of the emitter facing the hair and by ultrasonic vibrations created by the rear surface of the emitter directed to hair with a reflector of a special shape, in the form of a truncated cone of complex shape, paired with reflective m ring, allowing them to focus on the head area.

However, this device, used for surface non-contact ultrasonic treatment of the head surface in an environment of heated air, providing hair drying, cannot be used for non-contact ultrasonic treatment of areas of the biological tissues of the body that have been changed by the pathological process for the following reasons:

- the emitter in the form of a waveguide-tool, which is a bending-oscillating disk of stepwise variable cross section with predominant radiation of one phase (the "positive" phase of oscillations is 70%, and the "negative" phase of oscillations is 30% of the total radiation power), does not provide sufficient intensity of ultrasonic vibrations emitted by the front surface of the emitter, which reduces the possibility of its use for non-contact ultrasonic treatment of areas changed by the pathological process b otkaney body having a large area and surface roughness;

- the device cannot be used to perform ultrasonic aerosol treatment of areas of the biological tissues of the body that are changed by the pathological process, having a large area and surface unevenness;

- a reflector of complex shape, which creates a focus on the far zone of ultrasonic radiation, a relatively small cross-section cannot be used for ultrasonic treatment of body surface areas having a large area and surface unevenness. The reflector has a spatial thin-walled structure with large dimensions, the manufacture of which is a technologically complex process.

The objective of the invention is the creation of a multifunctional device for non-contact ultrasonic treatment of biological tissues having a large area and surface unevenness, both with a one-sided uniform field of radiation of a large area and with ultrasonic aerosol spraying of an activated drug solution with a torch.

The objective of the invention is achieved in that in a device for non-contact ultrasonic treatment of biological tissues, comprising an ultrasonic generator and an acoustic system housed in a bearing housing, including a low-frequency ultrasonic piezoelectric transducer of longitudinal type with an oscillation concentrator, acoustically connected to the emitter in the form of a disk-shaped waveguide-tool, which is a bending-oscillating disk of stepwise variable cross section and a reflector on the frontal surface of the radiation and of the radiator, phase-aligning annular protrusions are provided, provided with radially spaced around the circumference drainage spray holes with screw thread and conical nozzles, and also annular grooves alternating with phase-aligning annular protrusions, while communicating on the rear surface of the emitter radiation and opposite phase-aligning annular protrusions of the frontal radiation surface shallow annular cavities connected by radial grooves, and a reflector made a washer nerazemno connected to the back surface emitter of radiation to form, due to the overlap them communicating annular recesses of small depth, closed ring channels connected through a system of pipes with hydraulic feed comprising an infusion unit with a drug solution.

In this case, the reflector is made of a material reflecting ultrasound, for example, of Teflon or microporous rubber, and the low-frequency ultrasonic piezoelectric transducer of the longitudinal type with a vibration concentrator is made single-wave (n = 1).

In addition, an acoustic system with a radiator in the form of a disk-shaped waveguide-tool, which is a bend-oscillating disk of stepwise variable section with a reflector and a system of hydraulic supply pipes, is mounted on the cantilever beam of the support column by means of a holder and is equipped with an electromechanical drive designed for its vertical movement relative to the patient’s body, and the longitudinal reciprocating movement of the patient’s body relative to the speaker system with the emitter echivaetsya platform with fixed on it couch mounted on the roller support, and driven by an electromechanical drive.

The patent search showed that at the filing date of the application for the invention, the design of the device for non-contact ultrasonic treatment of biological tissues with the indicated distinctive features is not known.

The essence of the invention lies in the creation of a multifunctional device for non-contact ultrasonic treatment of biological tissues of the body, altered by the pathological process, having a large area and surface unevenness, allowing to provide exposure to biological tissues as a one-sided uniform field of ultrasonic radiation (ultrasonic wind), and their ultrasonic aerosol treatment with an activated spray torch , in the field of ultrasound, a medicinal solution due to the use in its design:

- a radiator in the form of a waveguide-tool, which is a bending-oscillating disk of stepwise variable cross section, in which phase-aligning elements are made: annular protrusions on the frontal surface of the radiation, and opposite them ring troughs of small depth on the back surface of the radiation, allowing to align the phase of radiation of all points the surface of the emitter with the addition of "positive" and "negative" zones of radiation, leading to an additional increase in the amplitude of oscillations of the annular protrusions n the front surface of the radiation, and hence the output power with a given surface (V.N.Hmelev et al., 2007);

- a reflector in the form of a washer from ultrasound-reflecting material, for example, from Teflon or microporous rubber, which is indissolubly connected to the rear surface of the radiation, which contributes to the provision of one-way radiation of ultrasonic energy with an increase in the amplitude and, consequently, the radiation power, mainly from the front surface of the radiation of the emitter ;

- closed annular channels on the rear surface of the emitter’s radiation, formed as a result of overlapping reflector communicating with each other, by means of radial grooves, annular depressions of small depth, allowing the accumulation and supply of the drug solution to the spraying drain holes with screw thread and the inverse cone on their nozzle end section, located on the oscillating front surface of the emitter, in the region of annular protrusions, providing the creation of a spray torch activated the drug solution;

- spraying a drug solution of drainage holes with a screw thread and a reverse cone at their nozzle end section, evenly distributed around the circumferences of the phase-aligning elements (annular protrusions on the front surface of the radiation and annular depressions of shallow depth on the rear surface of the radiation) in communication with the hydraulic system, including an infusion unit with a medicinal solution connected through a system of supply pipes with closed annular channels;

- a single-half-wave (n = 1) low-frequency ultrasonic piezoelectric transducer of longitudinal type with an oscillation concentrator, which can significantly reduce the linear dimensions of the emitter;

- an electromechanical drive for the vertical movement of the acoustic system with the emitter relative to the patient’s body, as well as an electromechanical drive for the longitudinal reciprocating movement of the patient’s body relative to the acoustic system with the emitter in the form of a waveguide-tool, which is a bend-oscillating disk of stepwise variable section, which allows to influence any areas of the patient’s body tissues changed by the pathological process that have a large area and surface unevenness as a one-sided uniform field of ultrasonic radiation of sufficient intensity and over a large area of exposure, and their ultrasonic aerosol treatment with a spray torch of a medicinal solution.

The specified device is multifunctional, allowing in a single technological treatment process to provide not only non-contact ultrasonic treatment of the biological tissues changed by the process with a one-sided uniform field of ultrasonic radiation, but also their ultrasonic aerosol treatment with a spray torch of activated drug solution at different stages of the treatment of the disease. This is achieved by the fact that the device is made on the basis of a radiator in the form of a disk-shaped waveguide-tool, which is a bend-oscillating disk of stepwise variable section with predominant radiation of one phase of oscillation and forming a unilateral uniform field of ultrasonic radiation of sufficiently high intensity, which can contact large areas without contact altered by the process of biological tissues of the patient’s body.

The invention is illustrated by drawings, which depict:

- figure 1 is a schematic illustration of a device for non-contact ultrasonic treatment of biological tissues;

- figure 2 is a schematic illustration of a radiator, which is an acoustic system consisting of a single-wave (n = 1) low-frequency ultrasonic piezoelectric transducer of longitudinal type with an oscillation concentrator, acoustically connected to a disk-shaped waveguide-tool in the form of a bend-oscillating disk of stepwise variable section forming a one-sided uniform field of ultrasonic radiation, as well as an image of an electromechanical drive for vertical movement of acoustic oh system with an emitter relative to the patient’s body and an electromechanical drive for longitudinal reciprocating movement of the patient’s body relative to the acoustic system with the emitter (type A, Figure 1);

- figure 3 is a schematic illustration of the emitter of the device in the form of a disk-shaped waveguide-tool, which is a bending-oscillating disk of stepwise variable cross section with predominant radiation of one phase of oscillation, forming a one-sided uniform field of ultrasonic radiation, at the stage of ultrasonic aerosol treatment with a spray of a drug solution ;

- figure 4 - shows a view B (Figure 2) of the emitter of the device from the side of the reflector in the form of a washer, one-piece connected to the back surface of the radiation of the emitter;

- figure 5 - shows a cross-section BB (Figure 2) of the emitter of the device from the back of the radiation surface of the emitter;

- figure 6 - shows a section GG (Figure 4) of the emitter of the device.

A device for non-contact ultrasonic treatment of biological tissues (hereinafter referred to as the device) comprises (Fig. 1 - Fig. 6) an ultrasonic generator 1, an acoustic system 2 located in a supporting body 3. In this case, the acoustic system 2 includes a single-wave (n = 1) low-frequency an ultrasonic piezoelectric transducer of longitudinal type 4, an oscillation concentrator 5, acoustically connected through a pin 6 with an emitter of ultrasonic vibrations 7. The emitter 7 is made in the form of a disk-shaped waveguide-tool made of a titanium alloy, Example VT-5, and it is a bending-oscillating disk of stepwise variable section with predominant radiation of one phase of oscillation, forming a one-sided uniform field of high-intensity ultrasonic radiation (130-150 dB). This is achieved by the fact that on the front surface of the radiation 8 of the emitter 7 are made phase-aligning elements: annular protrusions 9 and alternating annular grooves 10, and opposite the annular protrusions 9 on the rear surface of the radiation 11 of the emitter 7 are made communicating annular shallow of small depth 12, interconnected radial grooves 13. The above allows alignment of the phase of the radiation of all points on the radiating surfaces of the emitter 7 with ensuring, to a large extent, the addition of "positive" and "negative x "radiation zones, leading to an additional increase in the oscillation amplitude of the annular protrusions 9 and the annular grooves 10 on the frontal surface of the radiation 8 (on average by 10-15%), and therefore, increase the radiation power from this surface. In addition, the device is equipped with a reflector 14 in the form of a thin-walled washer (2-4 mm) made of a highly reflective ultrasound material, such as Teflon (F-4 fluoroplastic) or microporous rubber, one-piece connected to the back surface of the radiation 11 of the emitter 7. The reflector 14 overlaps interconnected annular depressions of shallow depth 12 with the formation of closed interconnected annular channels 15 connected through fittings 16 with a system of supply pipes 17, a tee 18 and a main pipe 19 with an infusion unit 20 containing the necessary To treat drug solution. At the same time, closed communicating annular channels 15 allow the accumulation and supply of the drug solution to the phase-equalizing elements evenly distributed around the circumferences and, first of all, to the annular protrusions 9 and then through the draining spray holes 21 provided with a screw thread (M thread 1.2-1.5 ) and a reverse cone (opening angle 120 °) at their nozzle end section, to the oscillating frontal surface of the radiation 8 of the emitter 7, which ensures the creation of a spray torch 22 of the drug substance. Screw cutting and inverse taper at the nozzle end portion of the drainage spray holes 21 is necessary to create better conditions for wetting and contact of the drug solution with the frontal radiation surface 8 of the flexurally oscillating disk-shaped waveguide-tool of the emitter 7.

For uniform ultrasonic treatment of biological tissues of body surface areas having a large area and surface unevenness at different stages of the disease treatment procedure, by exposing them to both a unilateral uniform field of ultrasonic radiation of sufficient intensity and ultrasonic aerosol spraying of a drug solution with a torch, the device is equipped with electromechanical drives 23 and 24 (power supply not shown):

- for vertical movement of the speaker system 2 with an attached emitter 7 relative to the patient's body;

- for longitudinal reciprocating movement of the patient’s body relative to the acoustic system 2 with the emitter 7.

The electromechanical drive 23 includes: a supporting base 25 with a support column 26 connected to the cantilever beam 27, in the holder 28 of which the acoustic system 2 with the emitter 7 is fixed. The vertical movement of the cantilever beam 27 and the acoustic system 2 mounted on it with the emitter 7 relative to the body the patient is provided with a rack mechanism 29 by an amount exceeding the diameter of the disk-shaped waveguide-tool of the emitter 7, having a diameter of from 200 to 300 mm The value of this distance corresponds to the far radiation zone, where there is a formed unilateral uniform ultrasonic radiation field of a sufficiently high level of intensity of the order of 130-150 dB (0.8-0.95 W / cm ² ) with predominant radiation of one phase of the oscillations. The radiation pressure P generated and the alternating sound pressure p form in the entire voiced volume of the air medium between the emitter 7 and the patient an ultrasonic wind, which acts (depending on the intensity of the ultrasound and the medium parameters) on the patient in laminar or turbulent modes. So, in air at a sound intensity of the order of 1 W / cm ² (160 dB), the amplitude of the variable sound pressure is p = 3 10 ⁴ dyne / cm ² , and the radiation pressure is P = 10 ² dyne / cm ² (I.P. Golyamina, 1979 ; G.I. Molchanov, 1980).

When voicing very large areas of the skin, for example, with some forms of psoriasis, sectoral processing is carried out by longitudinal reciprocating movement of the patient’s body placed on the couch 30 relative to the selected fixed position of the speaker system 2 with emitter 7. This is provided by an electromechanical drive 24, including a mechanical pair "Screw-nut" 31, which drives the platform 32, mounted on roller bearings 33.

The operation of the device for non-contact ultrasonic treatment of biological tissues is presented on the example of the complex treatment of patients with psoriasis. The type of drugs used, the exposure of the ultrasound to the generated unilateral uniform ultrasonic radiation field and the subsequent ultrasonic aerosol spraying of the drug solution of large areas changed by the pathological process of the patient’s biological tissues with a torch, as well as the number of treatment sessions taken during ultrasound therapy, are determined by the attending physician.

EXAMPLE. Patient S., 31 years old. Diagnosis: Vulgar psoriasis type I, progressive stage, common form, Pasi index 40.

After examining the patient and clarifying the diagnosis, conservative treatment was carried out in a day hospital for four weeks according to the generally accepted treatment regimen. In addition, in combination with the prescribed treatment, the patient underwent non-contact ultrasonic treatment of psoriatic lesions on the skin (in the chest area with their transition to the abdomen), as well as their subsequent ultrasonic aerosol treatment with a torch spraying an ozone / NO-containing drug solution (ozone / NO-containing saline solution, 5-10% ozonide-containing oil emulsion of the type "oil in water"). Ozone / NO-containing medicinal solutions are selected based on the fact that they have pronounced bactericidal, fungicidal, virucidal, detoxifying, immunocorrecting, desensitizing, decongestant, oxygenating, analgesic and other useful properties. Due to the fact that ozone / NO-containing medicinal substances have a pronounced anti-inflammatory and detoxifying effects, the effect on the epidermis affected by the pathological process and its degradation products in the field of psoriatic plaques is carried out daily for the first two weeks of treatment, and in the next two weeks - in one day.

Before the treatment procedure, the patient is placed in the supine position. Using a napkin moistened with an antiseptic solution, psoriatic foci and adjacent tissues are treated while the secretion of sebaceous and sweat glands is removed. Then, a multi-stage medical treatment technology is implemented using the proposed device and apparatus for gas ozone / NO-therapy "Ozotron" (NPP "Metromed", Omsk).

At the first stage of treatment of psoriasis (Figure 1, Figure 2), a non-contact ultrasound treatment of the affected skin is performed in the area of the psoriatic foci and adjacent tissues with a uniform field of ultrasonic radiation forming an ultrasonic wind.

To do this, using an electromechanical actuator 23, the acoustic system 2 is vertically moved with the emitter 7 in height relative to the patient's body. The emitter 7 is usually located at a distance exceeding its diameter, since at this distance a uniform radiation field is formed (far radiation zone). The longitudinal reciprocating movement of the patient’s body by an electromechanical drive 24 is oriented to the area of psoriatic lesions and adjacent tissues relative to the height-adjusted acoustic system 2 with the emitter 7. Then, the ultrasonic generator 1 is turned on and a non-contact action is made by a uniform field of ultrasonic radiation (ultrasonic wind) on the affected skin of the patient in the area of areas of psoriatic foci and adjacent tissues with the following parameters and modes:

- the frequency of oscillations generated by a bending-oscillating disk-shaped waveguide-tool - 26.5 kHz;

- the maximum amplitude (amplitude amplitude) of the oscillations of the front surface of the radiating disk-shaped waveguide-tool is 60-80 microns;

- the intensity of the generated ultrasonic vibrations is not less than 120-130 dB;

- exposure of ultrasonic exposure - 60-90 seconds / dm ^{2 of the} surface of the affected skin;

- the diameter of the radiating disk-shaped waveguide tool is 300 mm.

When processing a large area of the skin affected by psoriasis, it is carried out sequential sectoral processing.

After the procedure for treating affected skin with a uniform field of ultrasonic radiation forming an ultrasonic wind, the ultrasonic generator 1 is turned off and the second stage of treatment is started.

In the second stage of treatment of psoriasis (Figure 3, Figure 4), the affected skin in the area of the sites of psoriatic lesions and adjacent tissues, treated in the first stage of treatment, is subjected to non-contact ultrasonic treatment by ultrasonic aerosol treatment with a spray torch of the drug solution 22 with previously installed in height and position of the speaker system 2 with the emitter 7.

To do this, turn on the ultrasonic generator 1 and, using the infusion unit 20, which contains the previously prepared medicinal solution necessary for the treatment with the Ozotron gas ozone / NO-therapy apparatus: ozone / NO-containing physiological saline (used in the first and second weeks of treatment) or 5-10% ozonide-containing oil emulsion of the oil-in-water type (used in the third and fourth week of treatment) is fed through the main pipe 19, tee 18 and the supply pipe system 17 into closed communicating the ring channels 15 of a bending-oscillating disk-shaped waveguide-tool of the emitter 7. Next, the drug solution through the drainage spray holes 21, provided with a screw thread and a reverse cone at their nozzle end section, is supplied to the oscillating frontal surface of the radiation 8 of the emitter 7, which ensures the creation of a spray torch 22 drug substances. In this case, on the one hand, ultrasonic activation of the drug substance is carried out, and on the other hand, energy from the oscillating frontal surface of the radiation 8 of the emitter 7 is transferred to the formed echelons of aerosol particles acting on the skin of the patient affected by the pathological process. Parameters and modes of non-contact ultrasonic treatment of the affected skin of the patient during its ultrasonic aerosol treatment with a spray torch of a medicinal solution:

- the frequency of oscillations generated by a bending-oscillating disk-shaped waveguide-tool - 26.5 kHz;

- the maximum amplitude (amplitude amplitude) of the oscillations of the front surface of the radiating disk-shaped waveguide tool is 80 μm;

- the intensity of the generated ultrasonic vibrations is not less than 130 dB;

- exposure of ultrasonic exposure - 60 seconds / dm ^{2 of the} surface of the affected skin;

- the diameter of the radiating disk-shaped waveguide tool is 300 mm;

- the flow rate of the drug solution is 30-60 - ml / min.

After the session of ultrasonic aerosol treatment of the surface of the affected skin with the torch of spraying the drug solution, the ultrasonic generator 1 is turned off.

After a course of treatment, the patient experienced a regression of the lesion foci, inflammation stopped, the color of the skin acquired its usual color. In the future, the patient is recommended to follow a diet, skin care, and sedation is prescribed. Dynamic follow-up for 6 months showed no recurrence of the disease.

The proposed technical solution allows to create a device for non-contact ultrasonic treatment of biological tissues that are altered by a pathological process, having a large area and surface unevenness, which is multifunctional, since in a single technological treatment process it provides an impact on biological tissues affected by the pathological process as a one-sided uniform field of ultrasonic radiation of sufficient intensity, forming ultrasonic wind and ultrasonic aerosol treatment their spray pattern in the activated drug solution ultrasound. This achieves a simplification of the design of a single-half-wave (n = 1) speaker system with a radiator (waveguide-tool), which is a bending-oscillating disk of stepwise variable section with phase-aligning elements, which, in conjunction with a reflector, realize:

- the mode of one-sided emission of ultrasonic energy with an increase in the amplitude, and consequently, the radiation power, mainly from the front surface of the radiation of the emitter;

- form a system of closed annular channels on the rear surface of the emitter radiation, allowing the accumulation and supply of the drug solution from the infusion unit to the draining spray holes, the oscillating front surface of the emitter radiation, ensuring the creation of a spray of the drug solution. In addition, the device uses electromechanical drives for the vertical movement of the acoustic system with the emitter relative to the patient’s body, as well as for the longitudinal reciprocating movement of the patient’s body, which allows providing impact on any areas of the patient’s changed biological tissue having a large area and surface roughness as one-sided a uniform field of ultrasonic radiation (ultrasonic wind), and their ultrasonic aerosol treatment with a spray torch, act virovannogo in the ultrasound field, the drug solution.

The inventive device can be used in ultrasound therapy of a wide range of diseases in various branches of clinical practice: in conservative therapy, physiotherapy, surgery, obstetrics and gynecology, cosmetology, sports medicine, medical and veterinary biotechnology, as well as in agriculture, petrochemicals, etc.

To date, prototypes of the device, in combination with the commercially available apparatus for gas ozone therapy "Ozotron" (NPP "Metromed", Omsk), have been successfully tested in the conservative treatment of diseases in dermatology, neurology and cosmetology.

In the order established by the Ministry of Health and Social Development of the Russian Federation, for the organization of serial production of a device for non-contact ultrasonic treatment of biological tissues, the following documents were developed: design documentation, guidelines for the use of the device in clinical practice, a program and methods for acceptance and clinical testing of the device, etc. Production of the proposed device is planned for 2011.

Information sources

1. Ozone / NO-ultrasound technology in the treatment of ENT diseases: guidelines / under the general ed. Peddera V.V. and Ovchinnikova Yu.M. Omsk: Publishing House of OmSTU, 2005. - S.9-12 and s.29-36.

2. RF patent 2297849, cl. A61M 1/00, A61M 37/00, 2007.

3. RF patent 2374965, cl. A45D 20/10, B06B 1/06, B06B 3/00, 2009.

Claims (4)

1. A device for non-contact ultrasonic treatment of biological tissues, comprising an ultrasonic generator and an acoustic system located in a supporting housing, including a low-frequency ultrasonic piezoelectric transducer of longitudinal type with an oscillation concentrator, acoustically connected to the emitter in the form of a disk-shaped waveguide-tool, which is a stepwise-bending oscillating disk a variable section and a reflector, characterized in that on the front surface of the radiation of the emitter phase-aligning annular protrusions equipped with radially arranged circumferentially draining spray holes with screw thread and conical nozzles, as well as annular grooves alternating with phase-aligning annular protrusions, while communicating between them ring-shaped protrusions of the frontal surface of radiation are made shallow depth, connected by radial grooves, and a reflector made in the form of a washer is permanently connected nen from the rear surface to form an emitter radiation, as a result they overlap the communicating annular recesses of small depth, closed ring channels connected through a system of pipes with hydraulic feed comprising an infusion unit with a drug solution. 2. The device according to claim 1, characterized in that the reflector is made of a material reflecting ultrasound, for example, Teflon or microporous rubber. 3. The device according to claim 1, characterized in that the low-frequency ultrasonic piezoelectric transducer of the longitudinal type with a vibration concentrator is made single-wave. 4. The device according to claim 1, characterized in that the acoustic system with a radiator in the form of a disk-shaped waveguide-tool, which is a bending-oscillating disk of stepwise variable section with a reflector and a system of hydraulic supply pipes, is mounted on the cantilever beam of the support column by means of a holder and equipped with an electromechanical drive designed for its vertical movement relative to the patient’s body, and the longitudinal reciprocating movement of the patient’s body relative to the acoustic second system with a radiator is provided with a fixed platform on her couch, mounted on the roller support, driven by the electromechanical drive.

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