WO2007126339A1

WO2007126339A1 - Physiotherapeutic device for light and colour therapy

Info

Publication number: WO2007126339A1
Application number: PCT/RU2007/000214
Authority: WO
Inventors: Vladimir Alexandrovich Maligin; Boris Alexandrovich Nalivayko
Original assignee: Hudoley, Vladimir Nikolaevich
Priority date: 2006-05-02
Filing date: 2007-04-28
Publication date: 2007-11-08

Abstract

The invention relates to medical engineering, in particular to physiotherapeutic devices for producing an optical radiation action on pathologic niduses, biologically active areas or acupuncture points. The inventive physiotherapeutic device for light and colour therapy comprises emitting diodes of the light and infrared ranges which are connected to a power supply via a radiation parameter control unit. The emitting diodes are placed on one or several printed circuit boards which are arranged in transparent pockets located on the internal close-to-body surface of an elastic fixing device (for example, a binder, elbow- or knee pad ), whilst the power supply and the radiation parameter control unit are placed in a casing which is placed in one of the pockets or in the pocket mounted on the external surface of the elastic fixing device. Said invention makes it possible to extend the therapeutic capabilities of the physiotherapeutic device and to increase the efficiency of the use thereof

Description

PHYSIOTHERAPEUTIC APPARATUS FOR CBETO- AND COLOR THERAPY

Technical field

The invention relates to medical equipment, namely to physiotherapeutic devices, the principle of which is associated with the effect of optical radiation on pathological foci, biologically active zones or acupuncture points. State of the art

The treatment of various diseases with the help of light of various colors has been known since ancient times.

Thus, apparatuses for phototherapy [1-2], for laser ^' and ^' therapy, which is one of the areas of phototherapy, are known. Broad and promising possibilities of phototherapy are due to the fact that light interacts with living organisms both at the cellular and subcellular levels [1], so and at the system level [2].

Known physiotherapeutic apparatus [3] for light therapy, containing a power source, a number of emitting diodes, forming a matrix connected to a power source. In this apparatus, optical radiation of LEDs of different wavelengths is used to influence pathological zones and lesions, as well as biologically active zones and points, and its design is made in the apparatus body. During operation, this physiotherapeutic apparatus is brought to the patient's body.

However, this physiotherapeutic apparatus has significant weight and size characteristics, and its operation is based on the need to hold the apparatus manually in a predetermined position.

The closest in technical essence and the achieved result is a physiotherapeutic apparatus for light and “Haska-politsvet” color therapy, the design of which is protected by RF patent Jte 33016 [4] A 61N 5/06, published 2003.10.10], in which the irradiation of pathological zones, lesions, biologically active zones and points is performed from visible and near diodes infrared radiation ranges. These diodes form a radiating matrix, which is connected to a direct current source through the radiation parameter control unit.

With the help of these devices, pathological foci are affected by streams of light emerging from a transparent window of the housing in which all the elements of the device are located - the emitting matrix, the power supply unit and the radiation parameter control unit. At the same time, in order to receive the treatment procedure - the impact on the pathological focus, most often, it is necessary to remove clothes and hold the device in a certain position in which the optical radiation is directed directly to the pathological focus.

If the pathological focus or zone that needs to be affected is located on the back of the patient’s body, it is necessary to use the help of other people (nurses, relatives, etc.), which is not always convenient and accessible. In the case of treatment of diseases of the joints (for example, knee or elbow), if necessary, simultaneous exposure to different zones (for example, the collar zone and sternum), you have to use several devices or move the device from one zone to another. During the procedure, the patient is forced to remain inactive, not being in the most comfortable position.

Disclosure of invention

The main task solved by the claimed invention is the creation of a universal and easy-to-use physiotherapeutic apparatus for light and color therapy. The technical result, the claimed solution is aimed at, is to expand the therapeutic capabilities of the device and increase the efficiency of its use, primarily by creating the possibility of exposure to radiation on a pathological focus or zone located on the back of the patient's body. This provides the possibility of simultaneous exposure to several zones located at some distance from each other.

A positive result is achieved by the fact that in a physiotherapeutic apparatus for light and color therapy containing emitting diodes from the light and infrared ranges of radiation, connected in series, parallel and / or parallel-serial circuits connected to a power source through the radiation parameter control unit, emitting diodes placed on one or more printed circuit boards, which are installed in transparent pockets located on the inner surface of the elastic ixator (for example, a bandage, elbow or knee pad), and the power source and the radiation parameter control unit are located in the housing, which is located in one of the transparent pockets or pocket located on the outer surface of the elastic retainer.

Preferably, the radiation parameter control unit is configured as a switch, the input of which is connected to the output of the biologically active frequency generator, and the output of the switch is connected to groups of emitting diodes.

It is optimal to connect printed circuit boards with emitting LEDs mounted on them with flexible long wires to the chassis. It is advisable to install emitting diodes at a distance from each other of not more than 3 mm.

Brief Description of the Drawings

Fig. 1 schematically shows the construction of a physiotherapeutic apparatus with an anti-radiculitis bandage.

Figure 2 presents one of the possible options for the location of the emitting diodes on the printed circuit boards.

In FIG. 3 is an electrical block diagram of the apparatus.

An example embodiment of the invention The physiotherapeutic apparatus for light and color therapy contains emitting diodes, for example, two (infrared 1, red 2) or three colors (infrared 1, red 2 and blue 3), located uniformly on the surface of the printed circuit board 4 on a small, for example , not more than 3 mm distance from each other. Such an arrangement of emitting diodes makes it possible to ensure uniform illumination of the pathology zone when implementing appropriate treatment methods for various diseases.

The printed circuit boards 4 are placed in transparent pockets 5, attached to the inner 6 surface of the anti-radiculite bandage 7 closest to the patient’s body and facing the patient’s body with emitting diodes. Chipless diodes are used as emitting diodes in the form of small-sized chips rising a fraction of a millimeter above the surface of the board and protected by a layer of transparent compound that levels the surface of the board 4 and ensures a comfortable and tight fit of the board 4 to the patient’s body through the window of the transparent pocket 5. Minimum distances, not more than 3 mm between LEDs 1-3 and the patient’s body increase the efficiency of the use of radiation for therapeutic purposes and allow the use of low-power, high-efficiency light diodes to create the required level of light flux density in the pathology zone. The radiation parameter control unit 9 and the power source 10 are structurally combined and placed in the housing 11. The housing 11 is installed in one of the transparent pockets 5 or in an additional pocket 12 attached to the outer surface of the elastic retainer. Placing the housing 11 in the pocket 12 creates additional convenience for switching operating modes.

The radiation parameter control unit 9 is made in the form of a switch 13, the input of which is connected to the output of the biologically active frequency generator 14, and the output of the switch 13 is connected to the emitting diodes 1-3. In this case, the emitting diodes are connected in serial, parallel and / or parallel-serial circuits connected to the power source 10 through the unit 9 for controlling the radiation parameters. The connection of the emitting diodes in one or more parallel circuits, which, in turn, are interconnected in series, allows you to redistribute (if any LED fails) the current between them, providing reliable therapy even with a partial violation of the integrity of the circuit. The printed circuit boards 4 with the emitting diodes installed on them are connected to the housing 11 by flexible long wires 8, which allow these boards to be placed in various places on the patient's body, fixing them with one or more elastic clips. In various applications of the physiotherapeutic apparatus, the transparent pockets 5 can be fixed in various ways. So, for example, when using the anti-radiculitis band 7 they are fixed on the surface of the band 7 adjacent to the back, symmetrically to the patient’s spine and act in the described case is paravertebral to the area of the spine in the lumbar region.

With thoracic or cervical osteochondrosis, the anti-radiculitis band 7 can be raised up into the pathology zone and the area of localization of osteochondrosis can be treated paravertebrally.

For the treatment of joint diseases (arthritis, arthrosis, etc.) it is convenient to use knee braces, elbow pads, neck braces, etc. In this case, the transparent pockets 5 are also located on the inner surface of the bandage, which is closest to the patient’s body, around the joint, which ensures uniform and simultaneous effect of radiation on the entire joint.

The connection of several printed circuit boards 4 to one power supply unit 10 through the radiation parameter control unit 9 allows multivariate arrangement of light sources in the pathology zone and thereby improves the efficiency of treatment. So, for example, in the treatment of radiculitis, two boards can be placed paravertebrally in the lumbar region, and a third board can be placed in the sacral zone.

The control unit of the radiation parameters 9 provides the following basic functions. The switch 13 alternately connects the groups of diodes 1-3 to the power source 10, for example, so that at any given time two of the three groups of diodes, infrared 1 and red 2 or infrared 1 and blue 3 can emit. in the physiotherapeutic apparatus of the colors of the emitting diodes, the most various combinations of their connection are possible. Using the biologically active frequency generator 14, an alternating voltage (current) is synthesized that controls the radiation parameters, for example, the synthesis of one or more biologically active frequencies. Research by physiologists [5] found that there are frequencies of electrical signals that significantly affect the development of biological systems. So, there are frequencies that stimulate the development of processes in biological systems (biologically active frequencies) and frequencies that suppress the activity of biological systems. [5] As a generator 14, for example, a classic transistor multivibrator can be used. In a more complex case, you can use a programmable memory chip (ROM), which recorded a more complex modulation signal containing a set of biologically active frequencies. If necessary, the generator 14 biologically active frequencies can synthesize any modulation signal necessary to increase the effectiveness of the treatment of a particular pathology, and one or more biologically active frequencies are necessarily included in the spectrum of such a signal. In this case, the synthesized control signal is supplied to the direct current circuit supplying the emitting diodes, which leads to modulation of the radiation of the diodes according to the same law in which the supply current of the emitting diodes is modulated. As a power source 10 can be used block small standard batteries or accumulators, for example, with a voltage of 1.5 V.

Physiotherapeutic apparatus for light and color therapy works as follows. When the apparatus is turned on, optical radiation is generated at one of the possible combinations of wavelengths. For example, in one of the possible modes of operation of the apparatus, groups of diodes of the same color of radiation, combinations of groups of red and infrared or blue and infrared diodes may be included. If there are more colors, any combinations of their connection. Using the switch 13, the necessary operating mode of the physiotherapeutic apparatus is selected, as described in the special medical guidelines, the printed circuit boards 4 of the apparatus are placed in transparent pockets 5 of the brace 7 adjacent to the exposure zones according to the medical guidelines, and the planned procedure is carried out during the indicated period in the recommendations of the time.

INDUSTRIAL APPLICABILITY The inventive physiotherapeutic apparatus for light and color therapy is a universal and convenient means of application that allows expanding the therapeutic capabilities of existing physiotherapeutic apparatuses.

The physiotherapeutic apparatus can be widely used for use in medical institutions and at home. Information sources:

1. V. Karandashov and others. "Phototherapy", M, "Medicine", 2001, p. 170-368.

2. Gotovsky Yu.V. et al. “Color Lighting”, M, “Imedis”, 2001, pp. 79-97.

3. RF patent JMb 2144396 publ. January 20, 2000

4. RF patent JVb 33016 publ. 01/10/2003

5. Samokhin A.B., Gotovsky Yu.V. “Practical electro-puncture according to the method of P. Fole” M.IMEDIS, 1997, pp. 18-57

Claims

Claim

1. Physiotherapeutic apparatus for light and color therapy, containing emitting diodes from the light and infrared ranges of radiation, connected in series, parallel and / or parallel-serial circuits connected to a power source through the radiation parameter control unit, characterized in that the emitting diodes are placed on one or more printed circuit boards that are installed in transparent pockets located on the inner surface of the elastic retainer closest to the body (for example, a gang Ms, elbow piece or knee pad), and the power source and the radiation parameter control unit are installed in the case, which is located in one of the transparent pockets or in a pocket located on the outer surface of the elastic retainer.

2. The physiotherapeutic apparatus according to claim 1, characterized in that the radiation parameter control unit is made in the form of a switch, the input of which is connected to the output of the biologically active frequency generator, and the output of the switch is connected to emitting diodes.

3. The physiotherapeutic apparatus according to claim 1, characterized in that the printed circuit boards with LEDs placed on them are connected to the housing by flexible long wires.

4. The physiotherapeutic apparatus according to claim 1, characterized in that the emitting diodes are installed at a distance from each other of no more than 3 mm.