RU2122848C1 - Reflexotherapy device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: reflexotherapy device consists of operating element secured on patient's body. Operating element includes optical-range radiation source connected electrically to power supply and control unit. Reflexotherapy device contains N operating elements. Each of them is provided with small-size convex lens made of light filtering material with cavity which accommodates radiation source. To raise efficiency of using the light energy generated by radiation source, reflecting coating is applied to lens surface nonadjacent to patient's body. To enhance treatment efficiency, radiation source is made retunable as to radiation frequency. EFFECT: enhanced efficiency. 3 cl, 2 dwg

Description

 The invention relates to the field of medical equipment and is intended for prophylactic and therapeutic procedures through exposure to biologically active points and zones by radiation of the optical range.

 A known optical device for dosed exposure to acupuncture points with sunlight (a.s. N 1602528, class A 61 H 39/08 from 02.06.87). The device comprises a hub, a radiation power sensor, a louvre or a block of absorbing filters, a power fiber, a block of distributing fibers, the ends of which are fixed in the area of biologically active points. To irradiate deeply lying biologically active points, injection needles with a light guide laid along the central channel are used.

The disadvantage of this device is:
- impact on acupuncture points only with white light,
- the impossibility of simultaneously affecting several points with light of different wavelengths, (various colors),
- large losses of light energy transmitted through the fiber from the hub to the irradiated point,
- when using injection needles, there is a possibility of infection of the patient, as well as discomfort with the introduction of needles,
- High qualification of the doctor introducing injection needles to a great depth is required.

 A known optical device for reflexology (a.s. N 1553126, class A 61 H 39/06, from 06.26.88). In this device, for applying laser radiation to biologically active points, an applicator is used that provides a complex effect of several adjustable parameters on reflexogenic zones. The device contains an elastic base with fastening elements. Based on installed removable injection optically transparent needles and heating elements.

The disadvantage of this device is:
- the use of radiation of only one wavelength (color),
- the impossibility of simultaneously affecting several acupuncture points with light of different wavelengths (different colors),
- the possibility of infection of the patient and discomfort with the introduction of needles,
- low accuracy of radiation at a biologically active point,
- loss of light energy transmitted from the laser to optically transparent needles.

 As a prototype, a device for laser therapy is selected (application N 63-34745, (Japan), class A 61 H 39/00, publ. 12.07.88. The device includes a semiconductor laser (infrared range), mounted on a metal base, which is connected to a rubber cylinder. There is a channel for air intake in the metal base. A replaceable cone is attached to the base from the side of the laser diode, which allows setting the required distance between the irradiated organ and the semiconductor laser.

 In the prototype, the working part of the device is a metal base in which a semiconductor laser is mounted; separated from the surface of the skin of a person by a removable housing, allowing you to set the required distance between the irradiated organ and the laser. The working part is fastened due to the discharge of air inside the cone, which is ensured by a rubber balloon fixed on top of the metal base and the channel in the base for air intake.

 Using a semiconductor laser as a radiation source does not allow changing the color of the clouding radiation, does not allow irradiating several biologically active points with radiation of different spectral composition. The shape of the working part of the device does not allow the compaction of biological tissue at the point of entry of radiation into the patient’s body and thereby increase the depth of radiation penetration, because the base with the laser mounted on it is removed from the surface of the skin by a distance determined by the height of the cone.

 The purpose of the invention is to increase the effectiveness of treatment by simultaneously irradiating biologically active points or zones with radiation of different spectral composition and increasing the depth of radiation penetration into the patient’s body without increasing the radiation source power.

 This goal is achieved by the fact that in the device for reflexology, which includes working elements fixed to the patient’s body, containing a radiation source, electrically connected to the power and control unit, each working element is equipped with a convex small-sized lens made of light-filtering material with a cavity in which the source is located radiation. To increase the efficiency of using light energy generated by the radiation source, a reflective coating is applied to the surface of the lens that is not adjacent to the patient’s body. The use of a radiation source tunable in frequency of radiation allows to further increase the effectiveness of treatment.

 The authors have not found the use of the proposed technical solution to the problem in reflexology to increase the effectiveness of treatment, therefore, the proposed device for reflexology meets the criterion of "significant differences".

 It is known from the (medical) practice of reflexology that the therapeutic effect is achieved by exposing the biologically active point to acupuncture, mechanical pressure (acupressure, massage), heat or cold, electric current, optical radiation (light) of various spectral composition.

 When treating with acupuncture, depending on the disease and in the treatment process, several biologically active points (up to twelve) are subject to simultaneous exposure, which increases the effectiveness of treatment compared with exposure to one point. In this case, both excitatory (stimulating) and inhibitory (inhibitory) effects on biologically active points are used, which is achieved by using needles made of various metals (platinum, gold, silver, etc.) of various thicknesses and lengths.

The use of acupuncture is accompanied by a number of negative factors, which include:
- violation of the skin and as a result, the possibility of infection,
- destruction of biological tissues with repeated introduction of needles and the same points,
- discomfort
- the difficulty of accurately entering the biologically active point,
- the use of expensive needles (preferably individual),
- High qualification of an acupuncture doctor is required.

 The circle of patients resorting to this effective method of treatment is currently narrowing due to the possibility of infection with various viruses, which stimulates the search for alternative methods and devices for influencing biologically active points (modifications of classical acupuncture).

One of these methods is photoreflexotherapy, based on the influence of radiation in the optical range, both individually and in combination with other methods of influencing biologically active points (acupressure, thermopuncture, acupressure and linear massage, etc.). The radiation of the optical range of different spectral composition has a different effect on the irradiated biologically active point. Blue and green light have a depressing (inhibitory) effect, and red light has an exciting (stimulating) effect. Each of these effects, both individually and in combination, allows to achieve a therapeutic effect (Kryuk AS Mostovnikov VA, Khokhlov IV Therapeutic efficacy of low-intensity laser radiation, Minsk, Science and Technology, 1986. IX.).
The choice of the spectral range of the incident radiation can be based on one of the following principles,
- depending on the physiological effects of a particular color,
- in accordance with the Luscher test,
- in accordance with the traditional concepts of oriental medicine,
- depending on the depth of radiation penetration.

 Biologically active points are located at a certain depth from the surface of the skin. The depth of their occurrence reaches a few centimeters (8-7 cm).

 The depth of radiation penetration into biological points depends on the radiation wavelength and increases with its increase in the visible range. The highest penetrating power in the optical range is possessed by infrared radiation with a wavelength of 1 μm and red radiation of the visible range (Priezhev A.V., Tuchin V.V., Shubochkin L.P. Laser diagnostics in biology and medicine: M: Nauka, 1989 ) When compaction of biological tissue, the depth of radiation penetration increases significantly (Askaryan G.A. Possibility of enhancing radiation penetration through turbid media, M, Preprint, 1982, N 59).

 In the claimed device, the design of the working part of the device consists of interchangeable working elements fixed to the patient’s body. Each working element is or contains a small convex lens of light-filtering material with a cavity in which the radiation source is located. The working elements that ensure the fixation of radiation sources and the maximum radiation in the direction of the biologically active point or zone in the place of fastening of the working element are fixed with the help of a plaster in the areas of the skin projection of the selected points or zones.

 This design of the working part of the device allows you to increase the effectiveness of the treatment due to the simultaneous exposure to several biologically active points or zones by radiation of the required spectral composition, as one of any color, and various color combinations.

 The convex shape of the surface of the working element adjacent to the patient’s body ensures even sealing of the biological tissue at the point of radiation entry even with slight pressure in the direction of the irradiated acupuncture point (this is achieved by fixing the working element with adhesive tape, a Velcro strap and pressing the working element). This allows you to increase the depth of penetration of low-energy radiation into the patient’s body and increase the radiation flux to a biologically active point without increasing the power of the radiation source, as well as affect deeply lying biologically active points, to which, under normal conditions and when using known phototherapeutic devices, radiation came, which is especially important when exposed to biologically active points by radiation of blue and green light, which has a low direct onic ability.

 The use of radiation sources tunable by the frequency of radiation (in color) further increases the effectiveness of the treatment of a reflexotherapy device. With this action on biologically active points, radiation of a certain color is carried out not due to interchangeable small-sized lenses from light-filtering material, but by supplying a radiation source with a frequency-tunable radiation source of the corresponding electrical control signal.

 Figure 1 shows the proposed working element of a reflexotherapy device containing a convex lens 1 made of light-filtering material, inside the lens there is a cavity 2 in which a radiation source 3 is located, electrically connected to the power supply and control unit 4. A reflective coating 6 is applied to the surface 5 of the lens 1, which is not adjacent during installation to the patient’s body. When using small-sized lenses, for convenience of their fastening, the lens 1 can be fixed in the frame 7, as shown in FIG. 2.

 A device for reflexology works as follows.

According to the doctor’s recommendations, biologically active points or areas on the patient’s body are selected that need to be influenced, the order of exposure and the method of exposure. Choose the color of the radiation acting on each selected point or zone. Install the appropriate work items 1 on the selected biologically active points or zones. On the remote control unit 4 of the control and power set the level of radiation intensity acting on a point or zone, the time interval of exposure, the mode of operation of radiation sources 3 (continuous, pulse-in-phase, pulse-antiphase, traveling wave, etc.)
After installing on the remote control unit 4 of the control and power supply of the required operating mode of the emitters, a command is issued to start work. The process of irradiation of biologically active points or zones and their sequence is carried out automatically. The order of inclusion of radiation sources 3 is determined by a programmable switch, the program of which is installed on the remote control unit 4 controls.

 After the end of a predetermined program of work of radiation sources 3, the time interval shaper generates a signal that provides power off from radiation sources 3. Then the working elements 1 are removed from the skin, after which the procedure can be carried out on other parts of the body.

 As the radiation sources in the proposed working elements can be used, for example, subminiature incandescent lamp SMN-6-80-2. As a tunable radiation source, a phosphidogali epitaxial two-junction semiconductor crystal can serve. The color of the radiation of such a crystal depends on the magnitude of the electric current flowing through each transition of the crystal, and can vary from green to red, thus covering almost the entire visible range (except for blue).

 The light-filtering material for the lens can be, for example, colored organic glass. The material for the lens barrel can be ebonite, fluoroplastic, organic glass and the like. A reflective coating on the surface of the lens can be made by spraying a metal, for example, aluminum.

Thus, the proposed design of the working part of the device simultaneously performs the functions:
- an optical element performing spectral filtering of radiation (the role of a light filter) to obtain radiation of the desired color,
- an optical element that implements the formation of a beam of radiation, which allows to increase the light flux in the direction of the irradiated biologically active point (the role of a collecting lens) and, when applying a reflective coating, the role of a reflector focusing radiation in the direction of the biologically active point,
- a sealant of biological tissue in the place of fixation of the working element, which provides an increase in the depth of penetration of radiation and an increase in the flux of radiation incident on the irradiated point,
- holder of the radiation source.

Claims (3)

 1. Device for reflexology, comprising a working element fixed to the patient’s body, containing a radiation source, electrically connected to the power supply and control unit, characterized in that, in order to increase the effectiveness of treatment by irradiating simultaneously biologically active points or zones with radiation of different spectral composition and increasing the depth of radiation penetration into the patient’s body without increasing the power of the radiation source, it is additionally equipped with N working elements, each of which is made and in the form of a convex small-sized lens made of light-filtering material with completely in which the radiation source is located.  2. The device according to claim 1, characterized in that, in order to improve the efficiency of use of light energy generated by the radiation source, a reflective coating is applied to the surface of the lens not adjacent to the patient’s body.  3. The device according to claim 1, characterized in that the radiation source is tunable by the radiation frequency, and the filter material is transparent in the frequency range of the tuning of the radiation source.

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