RU52717U1 - PSYCHOEMOTIONAL CORRECTION DEVICE - Google Patents

Abstract

The invention relates to medicine, namely to a class of medical devices using the interaction of electromagnetic radiation (in particular the optical wavelength range) with the human body and / or animals in physiotherapy. The physiotherapeutic apparatus for the treatment of diseases of the organs of vision is designed to effectively treat cataracts, glaucoma, myopia and other diseases of the organs of vision, relieve psychological stress (psycho-emotional correction), and relieve eye fatigue (rehabilitation of eyesight) by exposing the fundus to the optical radiation of LEDs on one of the selected wavelengths. An apparatus for treating diseases of the organs of vision containing an actuator including two LEDs mounted on the frame of the glasses in such a way that the pulsed radiation of one of the LEDs is directed towards one eye, and the pulsed radiation of the other LED towards the other eye, and the power and control unit LED emission parameters, connected to the frame by a stranded wire. LEDs emit light of various spectral composition in a pulsed mode, acting alternately on the right and left eyes of the patient, while the working pulse of the LEDs has the form of an asymmetric bell with a shift of its top to the beginning of the pulse by a value from 0.2 to 0.4 pulse duration. The working pulse of the LEDs radiation is modulated by strobe pulses of duration (1-5) 10 ^-4 sec with a modulation depth of 0.7-1.0. The time interval equal to the sum of the duration of the working impulse and the pause between the end of the light exposure in one eye and the beginning of the exposure of the other eye is proportional to the period of contractions of the heart muscle, and the proportionality coefficient, for this, is yellow (4.2-4.8); orange - (3.7-4.3); green - (4.7-5.3); blue - (5.2-5.8); violet - (5.7-6.3). The pause between the end of the light exposure in one eye and the start of exposure of the other eye is 4-4.5 times the duration of the acting light pulse. Color pulse therapy is carried out with light with a wavelength from the range of 380-800 nm. The strobe frequency corresponds to the frequency of the α-rhythm of the human brain (9-10 Hz). The design of the apparatus and the electrical circuit of the radiation parameter control unit make it possible to provide sequential or simultaneous illumination of LEDs of different colors. This makes it possible to use individual monochromatic light fluxes and their superposition for the treatment of pathologies of various organs.

For effective interaction of pulsed optical radiation with the hemispheres of the brain, the LEDs are located on the frame with an offset relative to the axis of the eye to the nasal or temporal region and the axis of the radiation diagram of the LEDs is located at an angle to the axis of the eye so that the LEDs are directed to the near or far periphery of the fundus in relation to the nose bridge for both eyes. Acting through the fundus alternately on the cerebral hemispheres, modulated optical radiation harmonizes the work of the cerebral hemispheres, relieving stress and visual fatigue, and provides a significant improvement in patients' well-being. The repetition rate of the strobe pulses is chosen equal to the frequency of the waking brain and lies in the range from 9 to 9.5 Hz. In this mode of exposure to the brain, both hemispheres after a while are tuned to the same frequency of the α-rhythm and the brain goes into the most comfortable state of wakefulness. A variety of eye diseases, such as cataracts, glaucoma, retinal dystrophy, myopia, etc., are effectively treated with a special selection of exposure colors. The choice of the color of radiation depending on the time of day also helps to improve the patient's condition: in the morning, warm colors are chosen orange, yellow, which mobilize a person for active behavior, in the middle of the day the neutral green color is considered optimal, and in the evening before bedtime it is advisable to use cool colors - blue and purple, which well relieve fatigue and have to sleep. In the evening procedure, it is advisable to reduce the frequency of intrapulse modulation to 8.3-8.5 Hz.

Description

The utility model relates to medical equipment, more precisely to the class of phototherapeutic devices for color-pulse therapy, carried out through the patient's open or closed eyes.

The proposed device is designed to relieve psychological stress (psycho-emotional correction), relieve eye fatigue (vision rehabilitation), as well as treat diseases of the organ of vision by exposing the eyes to optical pulsed radiation from LEDs at one or more of the selected wavelengths.

Known physiotherapeutic apparatuses for treating eye diseases using optical radiation of LEDs of various colors or radiation of a white light source that has passed through a system of optical filters to influence the eyes [1-3].

The closest analogue of the apparatus proposed in this utility model is the device according to RF patent No. 2098059 [3], in which the patient's eyes are affected by pulsed monochromatic light generated by LEDs of different glow colors located in light-insulating eyepieces with light-scattering reflectors.

It is known that the retina is connected with the hemispheres of the brain in a certain way: on the right eye, the region of the retina closest to the temple is connected mainly to the right hemisphere of the brain, and the region closest to the bridge of the nose is mainly connected to the left hemisphere. For the left eye, on the contrary, the area of the retina closest to the temple is connected with the right hemisphere, and the closest to the bridge of the nose is connected with the left.

The main disadvantage of the known devices for pulsed color therapy through the eyes is the exposure of light along the axis of each eye to the entire area of the fundus, therefore, to both hemispheres of the head

brain at the same time, which is undesirable in the treatment and prevention of a number of diseases.

The technical result to which the claimed solution is directed is to expand the therapeutic capabilities of the apparatus and increase its efficiency by providing the possibility of alternate targeted exposure to the cerebral hemispheres with modulated monochromatic radiation and the selection of optimal modulation characteristics of pulsed radiation.

A positive result is achieved by the fact that in the apparatus for psychoemotional correction containing a power supply and a control unit connected by a cable to a holder in the form of a spectacle frame, in which on the inner surface of the opaque glasses there are one or more LEDs with an indent from the axis of the eye and rotate relative to it so so that the pulsed radiation of each LED is directed to the periphery of the fundus toward the temples or nose bridge and acts alternately on the right and left eye. In this case, both LEDs act on the periphery of the fundus towards the temples or both on the periphery of the fundus towards the nose. The working light pulse has the form of an asymmetric bell with a vertex offset to the beginning of the pulse by a value of 0.2-0.4 pulse duration, which is additionally modulated by strobe pulses of duration (1-5) 10 ^-4 sec with a modulation depth of 0.7-1.0 . The time interval equal to the sum of the duration of the working impulse and the pause between the end of the light exposure in one eye and the beginning of the exposure of the other eye is proportional to the period of contractions of the heart muscle, and the proportionality coefficient, for this, is yellow (4.2-4.8); orange - (3.7-4.3); green - (4.7-5.3); blue - (5.2-5.8); violet - (5.7-6.3). The pause between the end of the light exposure in one eye and the start of exposure of the other eye is 4-4.5 times the duration of the acting light pulse. Color pulse therapy is carried out with light with a wavelength from the range of 380-800 nm. The strobe frequency corresponds to the frequency of the α-rhythm of the human brain (9-10 Hz).

The design of the apparatus and the electrical circuit of the radiation parameter control unit make it possible to provide sequential or simultaneous illumination of LEDs of different colors. This makes it possible to use individual monochromatic light fluxes and their superposition for the treatment of pathologies of various organs [4, 5].

Figure 1 presents a variant of the location of the LEDs on the spectacle frame to influence the periphery of the fundus closest to the bridge of the nose.

Figure 2 presents a variant of the location of the LEDs on the spectacle frame to influence the periphery of the fundus closest to the temporal region.

Figure 3 presents a block diagram of the apparatus.

Figure 4 presents the diagrams of the brightness of the sources of monochromatic light acting alternately on both eyes.

Figure 5 presents the shape of the working pulse filled with strobe pulses.

The basis of the apparatus is a holder in the form of spectacle frames 1 with opaque glasses. In each half of the holder 1 on the inner side closest to the eye in the technological recess 2 is one or more LEDs 3, 4 of the same or different colors. The LEDs are offset relative to the axis of the eye towards the bridge of the nose (LEDs 3) or to the temporal region (LEDs 4). The axis 5, 6 of the LEDs 3, 4 are located at an angle to the axis of the eye 7, so that the radiation of the LEDs falls on the periphery of the fundus.

LEDs 3 or 4 through the radiation parameter control unit 8 are connected to a power source 9.

The control unit of the radiation parameters 8 provides the following basic functions:

- with the help of an electronic switch 10, sequential connection of the diodes 3 and 4 located in different halves of the holder to the power supply 9 is ensured, so that at any given time an LED or a group of LEDs in one half of the holder can emit light.

- using a special generator 11, the synthesis of alternating voltage (current) is carried out, which controls the radiation parameters of the LEDs in accordance with the task. If necessary, a special generator-frequency synthesizer can synthesize any modulation signal necessary to increase the effectiveness of the treatment of a particular pathology, and one or more working frequencies of the brain are necessarily included in the spectrum of such a signal.

As a power source 9, you can use either a battery pack or accumulators (2-6 batteries with a voltage of 1.5 V), and a network voltage converter with 220 V AC to 3-9 V DC.

The apparatus of psycho-emotional correction works as follows. A patient is wearing a spectacle frame 1. When the apparatus is switched on from one of the eyepieces of the frame, a working pulse of optical radiation 12 with a duration of τ _p is supplied to the patient’s eye. At the end of the working pulse, a pause of τ _lane follows, after which there is a pulsed optical effect on the other eye with a working pulse 12.

The working light pulse has the form of an asymmetric bell with a vertex offset to the beginning of the pulse by a value of 0.2-0.4 pulse duration. In this case, the radiation in the working pulse is additionally modulated by strobe pulses 13 with a duration of τ _p = (1-5) 10 ^-4 s and a repetition period T _p = 1.1 * 10 ^-1 s, synthesized by the generator 11. The modulation depth of the working pulse of the strobe-pulse is within 0.7-1.0.

The time interval T _p equal to the sum of the duration of the working pulse τ _p and the pause between the end of the light exposure in one eye and the beginning of the exposure of the other eye is proportional to the period of contractions of the heart muscle, and the proportionality coefficient, for this, is yellow (4.2-4, 8); orange - (3.7-4.3); green - (4.7-5.3); blue - (5.2-5.8); violet - (5.7-6.3). Pause between the end of the light exposure for one

eye and the beginning of exposure of the other eye is 4-4.5 times less than the duration of the working light pulse.

Color pulse therapy is carried out with light with a wavelength selected from the range of 380-800 nm.

The repetition rate of the strobe pulses is chosen to correspond to the frequency of the α-rhythm of the human brain (9-10 Hz).

The impact of pulsed optical radiation is carried out through the peripheral areas of the fundus alternately on both hemispheres of the brain. Pulse optical radiation harmonizes the work of the cerebral hemispheres. At the same time, the stress load of the brain and visual fatigue are relieved, a significant improvement in the well-being of patients is provided.

Depending on the goal and the patient’s pathology, the procedure is taken by exposure through open or closed eyelids, as described in special medical guidelines for the time specified in the recommendations.

The compliance of the physiotherapeutic apparatus for psycho-emotional correction with the requirements of medical practice in terms of functional and methodological capabilities is confirmed by the test reports of prototypes conducted on the recommendation of the Committee on New Medical Equipment of the Ministry of Health of the Russian Federation.

Information sources:

1. Zverev V.A. "The use of bioresonance phototherapy in ophthalmology", M., ed. Russian Medical Academy of Postgraduate Education, Collection of articles, 2000, p. 86.

2. Zverev V.A., Ataev D.I. “A method for the prevention and treatment of eye diseases”, RF patent No. 2171766, priority from 02.24.97.

3. Teterina TP “Teterina device for the correction of the functional systems of the human body”, RF patent No. 2098059, priority from 05/04/96.

4. Gotovsky and others. "Color therapy", M., 2001

5. Sheremetova G. B. “The Seven Colors of Health: Color Treatment," M, Fair Press, 2001.

Claims (4)

1. The apparatus of psycho-emotional correction, comprising a power supply and a control unit connected by a cable to a holder in the form of a spectacle frame, in which one or more LEDs are arranged on the inner surface of the opaque glasses, characterized in that the LEDs are indented from the axis of the eye and rotated relative to it in such a way that the pulsed radiation of each LED is directed to the periphery of the fundus towards the temples or nose bridge and acts alternately on the right and left eye, and the working s light pulse has the shape of an asymmetric bell offset top to top pulse by an amount of 0.2-0.4 pulse width modulated pulses, which duration (1-5) with 10 ^-4 with a modulation depth of 0.7-1.0. 2. The apparatus according to claim 1, characterized in that the period of time equal to the sum of the duration of the working pulse and the pause between the end of the light exposure in one eye and the start of exposure of the other eye is proportional to the period of contractions of the heart muscle, and the proportionality coefficient, for this, is for yellow colors (4.2-4.8); orange - (3.7-4.3); green - (4.7-5.3); blue - (5.2-5.8); violet - (5.7-6.3), and the pause between the end of the light exposure in one eye and the start of exposure of the other eye is 4-4.5 times less than the duration of the acting light pulse. 3. The apparatus according to claim 1, characterized in that the color-pulse therapy is carried out with light with a wavelength from the range of 380-800 nm. 4. The apparatus according to claim 1, characterized in that the repetition rate of strobe pulses corresponds to the frequency of the α-rhythm of the human brain (9-10 Hz).