RU48147U1 - DEVICE FOR STUDYING THE STATE AND CORRECTION OF HUMAN BODY FUNCTIONING SYSTEMS - Google Patents

Abstract

The utility model relates to the field of diagnostics and early warning of risks, as well as to the field of healthcare, in particular, to determining deviations of the functions of the human body from its individual norm, followed by correction by affecting the sensory systems of the body, to the insurance field, in particular, to determine the probability of insurance occurrence events and occasions. The technical result of the invention is the expansion of the arsenal of tools used to study the condition and correction of the functioning systems of the human body. The device comprises a camera installed with the possibility of directing the lens towards the eyes of the person being examined, means for placing the person being examined, support for the head of the person being examined, a screen connected to the channel for transmitting the camera image directly or through a computer and placed on the line of direct line of sight of the person being examined, a light source made with the possibility of forming a luminous flux with illumination E from 10 to 300 Lx and color temperature T _c from 3200 ° K to 3800 ° K and a flexible fiber optic fiber for providing illumination of the eye of the person being examined with the light flux from the light source, moreover, a camera is used as a camera, which makes it possible to obtain an image at low illumination of an object and having a lens with a variable focal length. The screen of the video reproducing device is used as the screen, the computer monitor is mounted on the line of sight of the operator, and the computer is connected to the camera’s image transmission channel, its software is capable of recording and processing the image of the front of the eyes of the person being examined by analyzing the macroscopic image of the saturation of color tones and symmetry of distribution their structure, output to the screens of a computer and a video reproducing device, images of the front parts of the head and inspected for

monitoring the change in the color tone of the eye, storing the image of the eyes of the subject with the appropriate identification signs, determining the percentage of color tone on the area of the iris and issuing appropriate recommendations for subsequent correction of the condition of the body of the subject. The device may additionally include means for providing background illumination during the study, not exceeding 10 Lux., Means for reproducing sound signals and means for creating odors that relieve psycho-emotional stress, a tool for fixing by the operator the attention of the patient on the most important areas of the image of the front of the eye, made, for example , in the form of a laser pointer, a massage element made of a mineral in the form of an ellipsoid, for example, of crystal. Means for accommodating the patient can be made with the possibility of horizontal and / or vertical movement.

Description

The utility model relates to the field of diagnostics and early warning of risks, as well as to the field of healthcare, in particular, to determining deviations of the functions of the human body from its individual norm, followed by correction by affecting the sensory systems of the body, to the insurance field, in particular, to determine the probability of insurance occurrence events and occasions.

A device for determining and correcting the functioning systems of the human body, containing a support for the head, a camera, the lens of which is aimed at the person being examined, a screen associated with the camera’s image transmission channel, and a light source to illuminate the examined area (E.S. Velhover. Clinical iridology , M .: Orbit, 1992, p. 113, 114).

The known device allows you to display a flat image of the examined area, which determines the deviation of the functioning systems of the human body from the norm, and assesses the degree of possibility of its return to normal when exposed to it with appropriate drugs, physiotherapeutic and other means. However, the effectiveness of the device is insufficient, since a person is given a passive role. In addition, the greatest efficiency of the device is realized in a narrow range of lighting temperature, which provides a more realistic image of the illuminated area of the face of the person under study due to the highest saturation of the "blue" part of the spectrum, and illumination, which provides the optimal signal-to-noise ratio in the camera.

The closest analogue is a device for studying the state and correction of the functioning systems of the human body (RU 2236164 C1), containing a camera mounted to direct the lens towards the eyes of the person being examined, means for placing the person being examined, support for the head of the person being examined, a screen connected to the channel transmitting the camera image directly or through a computer and placed on the line of direct line of sight of the gaze of the person being examined, a light source configured to form luminous flux with illumination E from 10 to 300 Lx and color temperature (TC) from 3200 ° K to 3800 ° K and a flexible fiber optic fiber to provide illumination of the eye of the person being examined with light flux from a light source, and a camera is used as a camera, allowing to obtain image at low illumination of the subject and having a lens with a variable focal length.

A disadvantage of the known device is the inability to quantify the saturation of color tones, the lack of funds for monitoring changes in the functioning systems of the human body.

In addition, in the known device, the arsenal of means for conducting correction by affecting the sensory systems of the body is limited. There are no technical means for simultaneously processing the images of the eyes of the subject being examined by the operator and observing the subject with changes in the color tones of the image of his own eye.

The technical result of the invention is the expansion of the arsenal of tools used to study the condition and correction of the functioning systems of the human body.

This is achieved by the fact that a device for studying the state and correction of the functioning systems of the human body, containing a camera mounted with the ability to direct the lens towards the eyes of the person being examined, means for placing the subject, support

for the head of the person being examined, a screen connected to the channel for transmitting the image of the camera directly or through a computer and placed on the line of direct line of sight of the person being examined, a light source configured to generate a light flux with illumination E from 10 to 300 Lux and a color temperature of TC from 3200 ° K up to 3800 ° K and a flexible fiber optic fiber to provide illumination of the eyes of the person being examined with the light flux from the light source, and a camera is used as a camera, allowing to receive the image at low illumination of an object and having a lens with a variable focal length, according to a utility model, the screen of a video reproducing device is used as the screen, the computer monitor is mounted on the line of sight of the operator, and the computer is connected to the camera’s image transmission channel, its software is configured to register and processing the image of the anterior part of the eyes of the examined person by analyzing a macroscopic image of the saturation of color tones and the symmetry of the distribution their structure, displaying on the screens of a computer and a video reproducing device images of the front parts of the subject’s eyes for observing changes in the color tone of the eye, storing the image of the eyes of the subject with the appropriate identification signs, determining the percentage of color tone on the iris area and issuing appropriate recommendations for subsequent correction the state of the body of the subject.

The device may further include means for providing background illumination during the study, not exceeding 10 Lux.

The device may further include means for reproducing sound signals, as well as means for creating odors that relieve the psychoemotional stress of the subject.

In addition, the means for accommodating the patient can be made with the possibility of horizontal and / or vertical movement.

The device may include a tool for fixing by the operator the attention of the subject on the most important areas of the image of the front of the eye, made, for example, in the form of a laser pointer.

The device includes, as an irritant of the sensory systems, massage elements made of a mineral in the form of an ellipsoid, for example, of crystal.

It is known that information processes ensure the coordinated interaction of many functional systems in the human body to meet his needs from metabolic to mental and social levels. Most of these functional systems are converted to brain structures; as a result, the acceptors of the results of the action of individual functional systems are integrated into the brain into a single common information holographic screen of the brain.

By analogy with a physical hologram, the signaling about the needs of the body acts in the form of a reference wave, and the signaling about satisfying the needs of the body - the subject wave. The interaction of the reference and subject waves is carried out on the interference basis of the interaction of wave and discrete processes on special topographic information screens. The most perfect level of the holographic information screen of the body is the structure of the brain. An element of the holographic screen of the brain is a visual analyzer formed in ontogenesis "by the part of the brain extended to the periphery." At the same time, in his work (function), not only an analogy of the physical holographic process is observed, but also in his liquid media the physical optical hologram itself is formed - a volumetric color body.

Rhythmically organized unconscious binocular micro-movements of the human eye during the fixation of spatial elements of the external environment are carried out according to a certain advanced program, which begins to take place in time even before the line of sight is directed at

object, and have certain amplitude-frequency characteristics. The trajectories of eye micromotion relative to the fixation object, combined on the plane of two-dimensional coordinates in the form of the positions of the total vector, form a crosshair on the coordinate plane - the “phenomenon of the cross”. The visual axis of the eyes most often intersect not on the "wings" of the cross, but in its center. The accelerations arising from their "cam" movement are not the same, as a result of centrifugal movement of the chamber aqueous humor of the eye, sections of addition and subtraction of the "crests" of light waves appear, which create an interference pattern.

In accordance with the laws of coherent optics of micromotion, human eyes restore the reflected front of diffracted waves with respect to the characteristics of their frequency-spatial interaction with the observed object. Thus, micromotion of the eyes ensures the formation of a hologram as a result of interference in the tissue media of the eye of the light - object - wave and the reference wave created by binocular micromotion of the eye.

The anterior part of the eye, which includes the corneal layer irrigated by the lacrimal masses, and the anterior chamber of the eye, filled with a liquid crystal colloid, as well as the connective tissue of the iris containing fibroblasts, macrophages and pigment cells - melanocytes, as well as collagen tissue, plays the role of an analogue of layered photographic plate and forms a volumetric optical body of a hologram, which is reproduced on the screen by the camera.

As a result of the optical interference interaction of two information media of the body - external and internal - in the tissue media of the anterior part of the eye along its optical axis, a three-dimensional “optical color body” of the hologram (torus) appears, closed between two other “optical bodies” - “completely white body” "- sclera, and" absolutely black body "- the pupil.

The dynamics of changes in the saturation of various color tones of the "optical body" of the hologram, as well as the symmetry of their distribution - these indicators reflect the state of the functional systems of the body.

In the proposed utility model, a study of the state of the human body is carried out by a specialist using visual analysis of a macroscopic image of the front of the eye by dynamic changes in the saturation of color tones and the symmetry of the structure of their distribution on the visible front of the eyes, as well as programmed methods by analyzing the image of the eye.

When the device is operating, the screen of the video reproducing device should always be facing the person being examined. In this case, the subject sees the image of his own eye and has the opportunity to observe the dynamics of changes in color tones when exposed to stimuli on the projection zones of the body, which provides an inverse visual biological relationship. The specialist, showing a pointer to the received image on the screen, informs the examined person about the peculiarities of the psychophysiological processes in his body.

The invention is illustrated by the drawing in figure 1, which shows a schematic representation of the device.

The device includes a tool table 1, a support for the head 2, a video reproducing device, the screen 3 of which is located in the visibility range of the person being examined, a computer 5 with a monitor 6, a keyboard 7 and a system unit 8, a camera 9, a flexible optical fiber 10 and a light source 11.

The person being examined is seated in front of the tool table 1 on an adjustable seat (not shown in the drawing), which ensures a comfortable fit. The human head is fixed on the support 2 for the head mounted on the tool table 1 and having the ability to change in height. A movable handling device can be attached to the head support 2,

allowing you to bring to the face and fix the fiber 10, directing light to the examined area. Behind the instrument table 1, a screen 3 of a video reproducing device is arranged on the line of the visual axis of the human eye. A camera lens 9 is directed to the human eyes. A camera 9 is used in the device, which is capable of obtaining a high-quality image in low-light conditions of an object, for example, 0.5 lux, and having a lens with a variable focal length to enable the formation of images with different zoom scales. The camera 9 is mounted on an adjustable tripod in front of the person being examined at a distance of at least 10 cm and at an angle relative to the optical axis of the camera 9, which makes it possible for the person being examined to see on the screen 3 an image of the illuminated area of his own eye in the form of a hologram, offset from the line of the visual axis of the human eye, directed to the screen 3. Light is directed from the source 11 to the eye. In order to eliminate the irritating noise and thermal effects of the light source 11 on the person being examined, a constructive replenishment of the light source 11 involves the use of a low-voltage (12-24 volts) incandescent lamp with a halogen cycle of up to 50 watts and convection cooling. The housing is connected to the optical fiber 10, so that the eyes of the subject are illuminated by the light flux from the light source 11.

The luminous flux emanating from the optical fiber 10 has an illumination E equal to 10 to 300 lux, and a color temperature T _c from 3200 to 3800 K. Lighting parameters play a key role in obtaining the necessary diagnostic signs and are physiologically harmless to the apparatus of vision, since close to the natural sunlight (E Lk = 300, T = 3200 K _n). The angle of incidence of the light flux on the eye should be arbitrarily changed by a specialist during the examination to identify diagnostic signs. Power to the lamp

It is fed through a step-down transformer (not shown in the drawing) from an AC network with a standard voltage and frequency. In the housing between the optical fiber 10 and the light source 11, a filter (not shown) can be installed, the passband of which is selected in the range of 300-1200 nm. For example, the use of an infrared radiation filter eliminates the effect of electromagnetic radiation in the infrared range on the person under study to obtain the necessary diagnostic features. For ease of installation of the filter between the end of the optical fiber 10 and the filter place a tool for attaching and changing filters.

The end of the optical fiber 10 can be mounted on the support 2 for the head to illuminate the eyes at a fixed angle or move manually to vary the angle and distance of illumination when highlighting the structure of the illuminated zone and other diagnostic signs.

The image received by camera 9 is transmitted to screens 3 and 6. The image on screen 3 can be transmitted directly or through computer 5. An important condition is the absence of a feeling of discomfort for the person being studied. Therefore, the device includes means to ensure a noise level of not more than 50 dB when examining the eye.

As such a means, a conventional cooling system is used. It eliminates the noise coming from the fan during the forced cooling system of the light source 11. After fixing the head of the person under study on the support 2, one of his eyes is illuminated with a light stream from the light source 11. The camera 9 is configured to receive images on the screen 3 and 6 color tones and symmetry of the eye structure over a certain period of time to obtain a summing difference in color tone and symmetry of the structure for each discrete micromotion of the eye, presented as an image of ogrammy.

The choice of the temperature range T _c equal to 3200-3800 K is based on the fact that the higher T _c , the more uniform the spectrum of the light flux and the more saturated its "blue" part of the spectrum, necessary to obtain a better image of the hologram. The range of illumination E, equal to 10 to 300 lux, corresponds to the temperature of optimal lighting for studio and household appliances. Subject to this range, the optimum signal-to-noise ratio is established.

By color tone and symmetry of the image structure on the screen 3 and 6, the operator visually determines the degree of deviation of the studied systems of functioning of the human body from the norm.

Then the operator acts on the sensory systems of the body and seeks the return of the functioning systems of the body, having deviations from the norm, to their optimal state. In this case, the correction of the functioning systems of the body is carried out by stimuli, stimulating the self-regulation of functions through biological feedback, established by observing a person changes color tone and symmetry of the image structure of the eye during exposure to stimuli.

As an irritant use means of reproducing sound signals that relieve the psychoemotional stress of the subject, for example, the noise of the surf, the noise of the forest, etc.

In addition, tools can be used to create odors that relieve the psycho-emotional stress of the subject, as well as various massagers for sensory irritation. A crystal ellipsoid can be used as a massager.

For the convenience of the operator, the device includes a tool for fixing by the operator the attention of the subject on the most important areas of the image of the front of the eye, for example, a laser pointer.

A change in the symmetry of the distribution of color tones relative to the optical axis of the eye, namely, its increase in asymmetry, is an indicator of a violation of one or another function of the body.

It is known that the increase in radial and axial asymmetry relative to the optical axis of the eye is an indicator of changes in physiological functions (Information biomedical technologies, M .: GEOTAR - MED, 2002, pp. 212-240).

The device allows you to register informational dysfunctions in the human body, including in the absence of any pronounced clinical symptoms of diseases, as well as disability.

Thus, the study of the functional states of the human body using the proposed utility model allows you to reliably and reliably monitor the condition of the person and conduct an integral assessment of his condition.

The invention can be used:

- to identify the effects of stressors on the human body and quantify the potential reserves of the body;

- for the selection of rehabilitation effects aimed at restoring the potential of the body's reserves;

- to determine the genetic predisposition to a particular type of activity;

- to diagnose the psychophysiological characteristics of the child’s development during training and education, to study the impact on the body of educational and physical exertion and the possibility of mastering the curriculum, for early vocational guidance, to select the appropriate training opportunities for him, as well as to select sports that correspond to psychophysiological capabilities;

- for professional selection and social rehabilitation, personnel management and certification;

- in insurance to determine the probability of an insured event and an insured event;

- in the field of security for the certification of the population.

Claims (8)

1. A device for studying the state and correction of the functioning systems of the human body, comprising a camera mounted to direct its lens towards the eyes of the person being examined, means for placing the person being examined, support for the head of the person being examined, a screen connected directly to the camera’s image transmission channel a computer and a light source arranged on the line of direct line of sight of the person being examined, a light source configured to form a light flux with illumination E from 10 to 300 Lx and a color temperature T _c from 3200 to 3800 ° K and a flexible fiber optic light guide to provide illumination of the eye of the person being examined with a light stream from a light source, while the camera is used as a camera to obtain an image in low light conditions of an object with a lens with variable focal length, characterized in that the screen of the video reproducing device is used as the screen, while the computer monitor is installed on the line of sight of the operator, the video input of the computer system unit is connected to the transmission image of the camera image, and the video output with the input of the video reproducing device, while the computer software is configured to register and process the image of the front of the eye of the person being examined by analyzing the macroscopic image of the saturation of color tones and the symmetry of the distribution of their structure relative to the optical axis of the eye, output to image screens the front parts of the eye of the subject to observe the change in color tone of the eye, storing the image of the eyes bsleduemogo with appropriate identification signs, determine the percentage of color tone of the image area and the eyes. issuing appropriate recommendations for subsequent correction of the state of the subject. 2. The device according to claim 1, characterized in that it includes means for providing background illumination during the study, not exceeding 10 Lux. 3. The device according to claim 1, characterized in that it includes means for reproducing sound signals that relieve the psychoemotional stress of the subject. 4. The device according to claim 1, characterized in that it includes means for creating odors that relieve the psychoemotional stress of the subject. 5. The device according to claim 1, characterized in that a massage element made of a mineral in the form of an ellipsoid, for example, of crystal, is introduced as an irritant of sensory systems into it. 6. The device according to claim 1, characterized in that between the optical fiber and the light source there is a light filter with a passband selected in the range of 300-1200 nm. 7. The device according to claim 1, characterized in that the means for accommodating the patient is made with the possibility of horizontal and / or vertical movement. 8. The device according to claim 1, characterized in that it includes a tool for fixing by the operator the attention of the subject, for example, a laser pointer.