RU128494U1 - DEVICE FOR IMPACT ON HUMAN BIORITHMS - Google Patents

Abstract

A device for influencing human biorhythms, consisting of a power source, LED emitters, regulators of the light flux supply, made in the form of glasses, characterized in that the light flux emitters generate a peak wavelength in the region of 480 ± 5 nm and are mounted on a translucent base in a frame points, and in the electric circuit of the block of emitters included a relay-chopper of the light flux with a constant time of 400 ms and a regulator of the frequency of interruption of the mode of operation of the emitters, while on the frame of the glasses mounted m gnitny element and the frame points with the help of handles is fixed behind the ears.

Description

The utility model relates to medicine, in particular to biorhythmology, and is intended to normalize the function of human biorhythms.

A device for influencing the eye is known, which contains a power supply, a generator, a trigger, transistor switches and an output optical device in the form of optical fibers (1).

The disadvantage of this device is the impossibility of influencing human biorhythms, inconvenience during operation due to the massiveness and significant size of the device with a system of special straps for fixing the device on the face and seal, and the location of the electronic unit in the part that is fixed on the face.

A device is known for correcting the functional systems of the human body, containing glasses with two light-insulated eyepieces, each of which has a light-scattering reflector, inside of which a source of LED radiation is rigidly fixed. At the same time, the device has a master oscillator, a power supply, a brightness and frequency control of light radiation (2).

The disadvantage of this device is the impossibility of influencing human biorhythms, as well as the massiveness and significant overall dimensions of the device, the bulky and uncomfortable system of fixing the device on the face in the form of a sealant and special fastening straps.

Known apparatus for color-pulse exposure ViDENS, designed to correct psychosomatic disorders, consisting of a housing, gasket, emitters, battery compartment, a liquid crystal display, control buttons, mounts to fix the device on the face (3).

The disadvantage of this device is the impossibility of influencing human biorhythms, the massiveness and significant overall dimensions of the device, the bulky and uncomfortable system of fixing the device on the face in the form of a sealant and special fastening straps, the location of the electronic unit of the device in that part that is fixed on the face.

A well-known electronic-optical apparatus "ASIR" for carrying out procedures for removing emotional stress, consisting of an electronic control unit, miniature incandescent bulbs in the form of two light sources (emitters) mounted in two eyepieces of the optical system, light filters fixed in the optical system (4).

A disadvantage of the known device is the impossibility of influencing biorhythms of a person, a bulky optical system with elements for attaching the device to a person’s face, the complexity of operation due to the presence of replaceable light filters and an AC power source in the device design.

The well-known apparatus "Glasses APK-01U Mellon" for the correction of the psycho-emotional state of a person by the method of CIT (color pulse therapy), consisting of a body, electronic unit, power supplies, push-button control devices, fixation devices on the person's face, emitters of various lengths of light waves (5) .

A disadvantage of the known device is the impossibility of influencing human biorhythms, a bulky electron-optical system with elements for fastening the device on a person’s face, the complexity of operation and the inconvenience of using the device.

The closest to the claimed device in terms of essential features is a device for correcting functional systems of the human body, consisting of a lightproof mask with a lightproof eyepiece, an internal light diffusing reflector, a screen of lightproof material with holes, light emitting panels, an electronic unit in the form of a microprocessor, control unit, display , digital to analog converter (6).

The disadvantage of this device is the impossibility of affecting human biorhythms, indicator LEDs have a large spread in wavelength for color, inconvenience and operation due to the massiveness and significant size of the device with a system of special straps for fixing the device on the face, the location of the electronic unit in that part , which is fixed on the face.

The aim of the invention is to provide a device for influencing human biorhythms.

This goal is achieved by the fact that the light flux emitters generate a peak wavelength in the region of 480 ± 5 nm and are mounted on a translucent base in the spectacle frame, and a light flux interrupter relay with a time constant of 400 ms and a mode interruption frequency regulator are included in the electric circuit of the emitter block operation of the emitters, while a magnetic element is mounted on the frame of the glasses, and the frame of the glasses with the help of the arms is fixed to the auricles.

All known devices recommended for normalizing the biological rhythms of sleep and wakefulness, improving overall well-being and mood, improving human performance, are designed to influence rhythmic color stimuli on the rods and cones of the human eye. However, neurophysiological studies in recent years have proved that the rods and cones of the retina are not related to the regulation of human circadian clocks, and therefore do not participate in the normalization of human biological rhythms. Classic photoreceptors - cones and rods are involved only in the function of vision. The regulation of the circadian clock is not interconnected with vision, but with the level of ambient light. The receptors and regulators of cradled clocks in humans are the relatively recently discovered new type of retinal photoreceptors - melanopsin - containing ganglion cells that have a maximum sensitivity to the wavelength of the visible spectrum of 480 nm (10, 11). Melanopsin-containing ganglion cells are monosynaptically connected with the neurons of the circadian regulation center - the suprachiasmatic nuclei of the hypothalamus, therefore they control the circadian clock with high reliability (7, 8, 9).

The justification of the technical characteristics of the known color-impulse therapy devices and recommended programs are based on the idea, refuted by modern neurophysiology, about the influence of the so-called photo-energetic system of the brain through the visual analyzer - the “hypothalamus-pituitary-libmic system”. In addition, in classical neurophysiology there is no such thing as a photo-energy system of the brain. The scientific literature does not provide evidence that the color, brightness, rhythm and shape of the light pulses of known devices through a visual analyzer can achieve normalization of biorhythms and eliminate or significantly reduce various painful conditions associated with a violation of biorhythms.

Structurally, the claimed device is made in the form of glasses (figure 1). The device contains a frame (1) and arches (2) for fixing glasses for the auricles. Glasses of glasses are made of transparent or weakly tinted biologically inert material (3). On the inner side of the glasses glasses mounted LEDs, which are sources of light electromagnetic radiation (4). Luminous flux emitters are mounted of at least four LEDs around the center of the glasses' glasses, which are necessary for the implementation of the visual function (1). LEDs have a wavelength range in the blue part of the visible spectrum of 480 ± 5 nm. A magnetic element (5) is mounted on the nose bridge of the eyeglass frames. The LED power source, the electronic relay unit for the number of light pauses, as well as the regulators of the operating modes of the light flux emitters, are mounted in a remote device (6). The device provides for the use of several brightness modes of the light flux with a wavelength of 480 ± 5 nm.

Technical characteristics of the device depicted in figure 1, and modes of its use:

The wavelength emitted by the signal LEDs is 480 ± 5 nm.

Brightness LED radiation of 100 to 500 cd / m ²

Pause between light exposures - 400 ms

Duration of light exposure - from constant to 10-15 per minute

Device Modes:

100% is a sunny day.

Infinitely adjustable with marks:

75% - "light overcast"

50% - cloud cover,

30% - “cloudy weather”.

The device (figure 1), which is an emitter of artificial light flux, is used as follows.

Man puts on glasses. In this case, through transparent or slightly tinted glass frames can perceive visual information. Then, after turning on the power source of the device (6), the control buttons (7) set the luminous flux mode according to the brightness and pause frequency of the luminous flux. Brightness modes are selected according to the subjective preference of the person. The frequency of pauses in the luminous flux lasting 400 ms is selected according to the subjective sensations of a person in the range from constant to 10-15 pauses per minute. The duration of the pause of the light flux is 400 ms and is correlated in time with the duration of one blink in a person. The inventive device, a person can use at a convenient time for him. The magnetic element of the spectacle frame is located in the nose and is intended for a therapeutic effect. The control unit with a power source is connected to the light emitters of the glasses through a connecting cable (8) and a connector (9) mounted on the frame of the glasses.

Using the inventive device allows you to get the following positive effects. First of all, the device is intended for adequate stimulation of melanopsin-containing retinal ganglion cells and related central mechanisms of regulation of human biorhythms. According to published data, photoreceptor ganglion cells of the retina have a maximum sensitivity at a wavelength of 480 nm (10, 11). The inventive device allows you to create the parameters of electromagnetic radiation, activating photoreceptor ganglion cells of the retina having high thresholds of light flux for their excitation. Similar design features are absent in previously known devices. The physiological significance of the threshold value of the circadian clock receptors, depending on the intensity of the light flux, was taken into account in the technical characteristics of the device. So, depending on the illumination, the latent period of the photoreceptor ganglion cells of the retina varies from a few seconds to several minutes. Therefore, in the inventive device sets high values of the brightness of the light flux. Pauses in the luminous flux lasting 400 ms, which are embedded in the technical characteristics of the device, are due to the frequency of activation of the physiological mechanism of blinking of a person. This mechanism is important for the processes of light adaptation of photoreceptor ganglion cells of the retina. Similar features of the impact on the function of human biological rhythms for the first time are realized in the constructive solution of the claimed device in combination with a magnetic element.

Adequate light activation of the center of the human circadian clock (neurons of the suprachiasmatic nucleus of the hypothalamus) through photoreceptor ganglion cells of the retina allows you to directly affect the central mechanisms of regulation of biorhythms that determine the secretion of hormones during the day, the management of autonomic functions, as well as cognitive activity of a person throughout the day. The activation of human biorhythms using the inventive device is aimed at filling the deficit of the light flux in which a person is at workplace during the day, in residential or educational premises. This is due to the fact that the norms of illumination at the workplace are, according to modern standards, SNiP of the order of 500 lux and less (12). At the same time, the ambient light on a sunny day reaches several tens of thousands of lux. The gap between natural illumination at workplaces and that in the external environment is a kind of light deprivation for the mechanisms of regulation of human biorhythms, which in the process of evolution were adapted to sunlight. Therefore, the occurrence of age-related human diseases is currently explained by a violation of biorhythms caused by light deprivation (13, 14, 15).

Specific stimulation of the central and peripheral biorhythms of a person through melanopsin-containing ganglion cells and neurons of suprachiasmatic nuclei ensures the normal functioning of the sleep-wake cycle or its restoration during sleep disturbances or when the functional state of the human body changes during wakefulness. The use of the proposed device is effective for the restoration of peripheral biorhythm disorders, which include muscle coordination, human response to environmental stimuli, dynamics of blood pressure and body temperature, gastrointestinal tract functions throughout the day, sleep depth and sleep phase, hormone secretion at different times of the day, as well as the dynamics of cognitive processes (attention, perception, memory). The proposed device will allow more effective prevention and treatment of fatigue and depressive states, which is a consequence of a violation of the function of human biorhythms. Adequate light exposure with wavelengths of 480 ± 5 nm on the circadian clock is the main condition for the physiological regulation of the functions of the human body in many respects and under different conditions. Normalization of the biorhythm function is important during space flights, when restoring a sleep pattern at any age, during night operation, as well as changing time zones. The device can find application in sports, because the high athletic achievements of athletes are interconnected with biorhythms. The inventive device for influencing human biorhythms is necessary in the treatment of age-related disorders of the reproductive function of male and female organisms. In combination with the light effect on human biorhythms, the device provides for the effect of a constant magnetic field on the nose area of patients, which is an additional factor of the patient's effect on biologically active points. Therefore, the proposed device for the adequate activation of the central mechanisms of regulation of biorhythms and concomitant stimulation of biologically active points of the face with a constant magnetic field can be widely used both in medical practice and among the population.

INFORMATION SOURCES:

1. Patent for the invention of the Russian Federation No. 2030908.

2. Patent for the invention of the Russian Federation No. 2098059.

3. The apparatus for color-pulse exposure ViDENS. ViDENS® Instruction Manual. 48 sec

4. Spectral ophthalmic apparatus ASIR.

Cm.:

5. The apparatus CIT “APK-01U MELLON”.

6. Patent for utility model of the Russian Federation No. 66964.

7. Dao-Qi Zhang, Wong K.Y., Sollars P.J., Berson D.M. et al. Intraretinal signaling by ganglion cell photoreceptors to dopaminergic amacrine neurons // PNAS. 2008. Vol.

105. No. 37.P.14181-14186.

8. Ecker J.L., Dumitrescu O.N. Wong K.Y. et al. Melanopsin-expressing retinal ganglion-cell photoreceptors: cellular diversity and role in pattern vision // Neuron. 2010. Vol. 67, P. 49-60

9. Gamlin P.D.R., McDougal D.H., Pokorny J., Smith V.C., King-Wai Yau, Dacey D.M. Human and macaque pupil responses driven by melanopsin-containing retinal ganglion cells // Vision Research 2007. Vol. 47. P.946-954.

10. Berson, D.M., Dunn, F.A., Takao, M. Phototransduction by retinal ganglion cells that set the circadian clock // Science.- 2002. Vol.295, P. 1070-1073.

11. Dacey, D.M., Liao, H.-W., Peterson, B.V., Robinson, F.R., Smith, V.C., Pokorny, J., et al. Melanopsin-expressing ganglion cells in primate retina signal color and irradiance and project to the LGN // Nature, 2005, Vol. 433, P. 749-754.

12. The system of regulatory documents in construction. “Building Norms and Rules of the Russian Federation. Natural and artificial lighting ”, SNiP 23-05-2010. Updated edition of SNiP 23-05-95. Ministry of Regional Development of the Russian Federation (MINREGION OF RUSSIA), Moscow, 2010, 72 pp.

13. Stevens RG. Artificial lighting in the industrialized world: circadian disruption and breast cancer // Cancer Causes Control. 2006 May; 17 (4): P.501-507.

14. La Morgiaa, C., Ross-Cisnerosb, F.N., Hannibalc J., Montagnaa P., Sadunb A.A., Carellia V. Review. Melanopsin-expressing retinal ganglion cells: implications for human diseases // Vision Research. 2011. Vol. 51, Issue 2, P.296-302.

15. Lewis, B.H. Legato, M. Fisch, H. Medical Implications of the Male Biological Clock // JAMA, November 15, 2006. - Vol. 266, No. 19. P. 2369-2371

Claims (1)

A device for influencing human biorhythms, consisting of a power source, LED emitters, regulators of the light flux supply, made in the form of glasses, characterized in that the light flux emitters generate a peak wavelength in the region of 480 ± 5 nm and are mounted on a translucent base in a frame points, and in the electric circuit of the block of emitters included a relay-chopper of the light flux with a constant time of 400 ms and a regulator of the frequency of interruption of the mode of operation of the emitters, while on the frame of the glasses mounted m gnitny element and the frame points with the help of handles is fixed behind the ears.

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