RU2160612C1 - Device for magneto-and-light therapy - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device may be used in physiotherapy for treatment of gynecological and andrological diseases. Device has magnetic system positioned in operating zone of probe- attachment and made of two or more laminated permanent magnets. Magnets are arranged in one place close to each other and are turned to surface being treated with different poles. Angle between plane of magnets and axis of attachment in operating zone is selected to be within 0-90 deg. EFFECT: enhanced efficiency. 1 cl, 4 dwg

Description

 The invention relates to medical instrumentation, in particular to devices providing a therapeutic effect using light and magnetic radiation, and can be used in physiotherapy in the treatment of gynecological and andrological diseases.

 A device for magnetotherapy of hollow organs, comprising a housing in the form of a probe of bioinert material and a magnetic system formed by permanent plate magnets installed along the axis of the housing, separated by gaps [1].

 This device acts only with a magnetic field with insufficient magnetization efficiency, since the magnets are placed with gaps and unipolar, which reduces the gradient of the magnetic field induction.

 Known devices for intracavitary magnetosvetotherapy containing a power and control unit, a probe nozzle in the working area of which a magnetic system is placed, and IR and visible radiation sources connected to the power and control unit are located at the distal end and / or in the working area of the nozzle [2 , 3]. In known devices, the magnetic system is made in the form of a permanent ring magnet. This design of the devices does not allow the full use of such a biotropic parameter of the magnetic field as a change in the direction of the lines of force and, therefore, the devices are not effective enough to affect the pathological focus inside the cavity.

 The aim of the invention is to increase the therapeutic effectiveness of the device.

 The closest to the proposed technical solution for the functional purpose and components is a device for magnetic laser therapy [4], including a power supply and control unit, a probe nozzle, in the working area of which the magnetic system is located, and at the distal end and / or in the working area of the nozzle placed infrared and visible radiation sources connected to a power supply and control unit. As the influencing factors in this device, electromagnetic radiation of the visible and infrared ranges and the magnetic field of a permanent magnet are used. The magnetic system is made in the form of a single flat magnet. That is, again, there is no possibility of polarity reversal of the magnetic field and a sufficient gradient of magnetic induction is not created for an effective therapeutic effect.

The specified goal in a device for magnetosvetotherapy of hollow organs containing a power supply and control unit, a probe nozzle in the working area of which a magnetic system is placed, and IR and visible radiation sources connected to the power supply unit are located at the distal end and / or in the working area of the nozzle control is achieved due to the fact that the magnetic system is made of two or more permanent plate-shaped magnets located in the same plane close to each other and facing the work surface with different poles, what is the angle between the plane of the magnets and the axis of the nozzle in the working area is selected in the range from 0 to 90 ^o .

 This design of the magnetic system provides a minimum gap between the individual magnets facing each other opposite poles. The close arrangement of the magnet sectors with the opposite direction of the poles forms the original configuration of the magnetic field lines, which leads to a several-fold increase in the depth of penetration of the field into the body. At the same time, a “tangential” component of magnetic induction appears, parallel to the fluid channels in the body (primarily blood vessels, lymph), which increases the effectiveness of the magnetic field. And, since the body is constantly moving its components, both when the device is stationary on the treated surface and when moving it over it, the effect is not a constant, but an alternating low-frequency magnetic field with a high (up to 4 T / mm) gradient in the direction power lines.

Changing the angle between the plane in which the magnets are located and the axis of the probe nozzle from 0 to 90 ^o allows, in contrast to the prototype, to more selectively affect predetermined parts of the body, especially in hollow organs.

 The invention is further illustrated in FIG. fourteen.

 In FIG. 1 schematically shows an embodiment of a device for magnetosvetotherapy of hollow organs. Here 1 is the housing in which the power supply and control unit is located, 2 is the fiber-optic (in particular case) probe nozzle, in the working area of which there is a magnetic system - 3, 4 is the emitter (for example, a two-color LED or a set of LEDs), 5 - the angle between the plane of the magnets and the axis of the nozzle. Depending on the functional purpose (gynecology, proctology, urology, dentistry, etc.), the nozzle may have the corresponding shape of the work area. The emitter can also be selected depending on the purpose - according to the wavelength of radiation, power and directional diagram.

 The magnetic system in the simplest case is composed of two flat magnets 1 (Fig. 2) located closely and opposite poles to each other.

 In FIG. 3 shows a possible version of the probe nozzle with a set of emitting crystals 2 and a magnetic system 3. The nozzle in this embodiment can be made in the form of a hollow tube with the introduction of a reinforcement block 1 on it, on which emitting crystals and magnets are mounted. The nozzle can also be made in the form of a continuous transparent body into which, for example, a reinforcement block with crystals and a magnet is pressed. In both cases, the nozzle is supplemented with connector 4 for electrical connection of the LEDs with the power supply and control unit.

 In FIG. 4 for example, a device for magnetosvetotherapy of thin cavities: nasal, ear, and also for use in reflexology. Here 1 is the power and control unit, 2 is the probe nozzle, 3 is the magnetic system, 4 is the emitter located on the distal end of the nozzle.

 The combination of multi-frequency effects used in the device, especially the combination of the orienting effect of a magnetic field with a high gradient in direction and activation of photochemical reactions more significantly than in the prototype, changes the hydrated and liquid crystalline formations of the body, activates chemical reactions to a greater extent. This increases the efficiency of modulation of vital processes and correction of impaired body functions.

 The proposed technical solution is implemented in experimental magnetosvetotherapeutic devices for gynecology and andrology, which are undergoing clinical testing. According to research materials, the device is recommended for vaginal use for the treatment of inflammatory processes of the uterus and its appendages, for the restoration of reproductive function, during rehabilitation after surgical interventions on the female genital organs, as well as for rectal use for the treatment of chronic prostatitis, with male infertility, and erectile dysfunction.

 Important advantages of the device are simplicity of design and control, safety of use, low cost, high therapeutic efficacy. This allows you to use the device in a wide therapeutic practice, including at home.

Sources of information
1. Patrasenko BC, Device for magnetotherapy of hollow organs. RF patent N 2053810 from 07.23.91 class. 6 A 61 N 2/10.

 2. Margus ME, Bavlakova VV, Device for the treatment of periodontitis. RF patent N 2008956 from 02.07.91 Cl. 5 A 61 N 5/06.

 3. Khristoforov VN, Khristoforova TV, Grabovschiner A.Ya., Device for magnetic laser therapy. Application of the Russian Federation for the invention N 96113346/14 from 06/26/96. Cl. 6 A 61 N 5/06.

 4. Khristoforov V.N., Khristoforova T.V., Grabovschiner A.Ya., Device for magnetic laser therapy. The application of the Russian Federation for the invention N 96113347/14 from 06/26/96. Cl. 6 A 61 N 5/06 (prototype).

Claims (1)

A device for magnetosvetotherapy containing a power supply and control unit, a probe nozzle in which a magnetic system is located, and at the distal end and / or in the working zone of the nozzle there are IR and visible radiation sources connected to the power and control unit, characterized in that the magnetic system is made of two or more permanent plate-shaped magnets located in the same plane close to each other and facing the work surface with different poles, and the angle between the plane of the magnets and Sue nozzle in the working area is selected in the range 0 - 90 ^o.

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