RU2102951C1 - Glasses - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has magnets mounted in glasses rim, opaque perforated oculars spaced along lens holders perimeter. The device also has air duct with openings on the inner side of the rim connected to compressed gas cylinder through reducing valve, mechanical vibromassage unit mounted on rim bridge member. N electromagnetic radiation sources with radiation frequency varying from infrared to ultraviolet are bound through light guide coupling member. EFFECT: improved functional results. 2 dwg

Description

 The invention relates to medicine, namely to ophthalmology and is used in the prevention and therapeutic treatment of various eye diseases (dystrophic, inflammatory and myopia).

 A device for laser therapy (Ophthalmic coagulator "Model 800" company "Coherent Radiotion" US, 1977), containing an argon laser and an optical system.

 However, this device does not exclude the trauma of deep-lying tissues, especially the retina, due to exceeding the maximum energy level acceptable for the eye, since the radiation lies in the region of maximum transparency of refraction of the medium of the eye, as well as in the region of maximum sensitivity of the recipient's eye.

 Known ophthalmocoagulator (Foreign electronics, 1977, N 10, p. 68, Ophthalmocoagulator 41 AK firm "Lasternik" Fi), containing two continuous gas lasers - argon and krypton, a mechanical shutter for selecting the duration of pulsed radiation and an optical system for pointing and focusing the laser radiation.

 Known laser nozzle for an ophthalmic device (AS SU N A 61 N 5/00 444,981, 1972), containing sources of continuous and pulsed laser radiation with a focusing system and a binocular observation system with a channel for visual observation.

 Known laser ophthalmic coagulator (ed. St. N 698191, class A 61 N 5/00, 1977), containing n-therapeutic lasers, the outputs of which are connected through a movable prism with a common fiber, as well as a laser control system.

 However, well-known technical solutions have a high risk factor for postoperative complications.

 The closest in technical essence and the achieved result is a device for magnetotherapy of the eyes (autosw. SU N 1139446, class A 61 N 1/42, 1982), comprising a housing, a coordinate ring and magnets located in the grooves of the housing with the possibility of radial and longitudinal movement and rotation, and the housing is mounted with the possibility of rotation in the coordinate ring.

 The known technical solution significantly reduces the inflammatory processes in case of eye disease, however, it does not allow to increase the effectiveness of treatment of various diseases, since only the influence of one magnetic field is used.

 The technical result of the invention is to increase the effectiveness of the treatment of diseases of the eye, as well as the exclusion of damage to deep-lying tissues of the eye (preventing trauma to the optical media of the eye and retina), shortening the duration of treatment and reducing the period of rehabilitation of postoperative patients.

 According to the invention, this is achieved by the fact that the glasses of Professor O.P. Pankov, containing magnets located in the frame of the glasses, as well as opaque perforated eyepieces installed in the lens holders, placed along the perimeter of the lens holders with air ducts with openings on the inside of the frame connected through a reducer with a can of compressed air, a mechanical vibratory massager mounted on the transfer of the frame, n-sources electromagnetic radiation with a frequency of radiation from near infrared to ultraviolet, connected through the interface with Y-type optical fibers, the outputs of which installed in the Central holes of the perforation eyepieces with the ability to change the distance between their output ends and the surface of the eyes, as well as mounted on the frame with the ability to rotate the blinds, while the master oscillator is connected to the n-inputs of the modulator connected in series with a modulation frequency corresponding to the bioresonant frequency of the healthy eye, a current amplifier and a source of electromagnetic radiation made on a semiconductor element.

 The invention consists in the use in various combinations of the radiation spectrum of a source of electromagnetic radiation, depending on the cases of ophthalmic pathologies of the recipient's eye, since the nature of the absorption of eye tissues varies depending on the wavelength of the laser radiation and the presence of pathology, as well as in the location of the radiation source, the output end fiber optic, in close proximity to the surface of the eye.

 In addition, the effect of a constant magnetic field with laser radiation, reducing the reflection of the laser beam, improves the plasma, tissue, lymphatic, potassium-sodium balance due to the normalization of capillary-permeable tissue of the eye. Moreover, the glasses have several sizes with different values of the intensity of the constant magnetic field.

 In this case, the eye tissue will be under the local direction of the biostimulating effect of both magnetic field and laser radiation.

 In addition, the impact of an optical quantum generator with a wavelength of 0.85 microns; 0.67 microns; 0.56 microns; 0.48 μm helps to improve visual functions and the health of the accommodation apparatus, since the parameters of radiation exposure at these wavelengths are very close to the parameters of bioenergy processes in the body, and it gives the greatest physiological effect during photosynthesis and activation of oxidative, reducing and other bioenergetic processes . In addition, it has a significant stimulating effect on the biological object of the eye, does not generate any new processes in the body, but weakens or strengthens existing ones.

 And the use of mechanical massage of the periorbital tissues of the eye, together with the action of a thin stream of air on the near-orbit surfaces of the eyes, allows you to regulate capillary blood flow and lymphatic drainage.

 Moreover, the alternation of a perforated eyepiece with an eyepiece of a light-tight shutter-dark window allows a combination of relaxation of the visual analyzer, which is a technical implementation of the principles of solarization (light saturation) and palming (dimming), developed by Ulyam G. Bates in the US (30 years). During palming, the eyes are closed, which gives the eyes rest, relaxation of the muscles of the eyes with the simultaneous activation of nerve cells. Palming is done after irrigation of the eyes with laser radiation (the entire visible range of light), until the nerves of the retina absorb new infused forces into the body.

 And since the violation of the humoral transport of internal organs, which ensures the metabolism of cells, organs and tissues, consists of three main links: blood circulation, tissue mass transfer and lymphatic drainage, which is one of the functional systems of the human body.

 Therefore, the complex effect of low-efficiency laser radiation, a constant magnetic field, mechanical massage, the use of solarization and palming normalizes microcirculation, activates the work of myocytes and endotheliocytes, stimulates the functional activity of capillaries due to their dilatation and opening of reserve ones, and also affects the process of immunogenesis, both local and local in general, in particular, a decrease in antibody titer in Rh conflict, an increase in the number of phagocytic activity of leukocytes with a simultaneous decrease the number of eosinophils and the level of seromunsides, and there is an increase in the production and number of circulating immunoglobulins, affects the number of T and B lymphocytes, and inside the T lymphocytes the ratio of killers, halters and suppressors, in addition, the content of protein molecules and enzymes in the blood plasma increases, which accelerate the synthesis of certain biological substances, and the blood causes secondary changes in its tissues and organs perfused, and also has a significant effect on the lymph-stimulating effect, which allowed elichenie lymph flow velocity, increasing the number vazometfomotsy.

 Thus, a systemic correction of humoral transport and increased tissue drainage are carried out for various eye diseases (dystrophic, inflammatory and myopia). "The health of the body is ensured by the harmony of intersystem relations, and the disease is a violation of this harmony, so it is necessary to restore the harmony of intersystem relations, then the body itself will be healed" (Anokhin P.K. Essays on the physiology of functional systems, M .: Medicine, p. 277).

 In FIG. 1, 2 presents the proposed points O.P. Pankova.

 Points of Professor O.P. Pankov, containing magnets 2 located in the eyeglass frame 1, as well as opaque perforated eyepieces 3 installed in the lens holders, placed along the perimeter of the lens holders with air ducts 4 with holes on the inside of the mandrel 5 connected through a reducer 6 to a can of compressed air 7, a mechanical vibratory massager 8, mounted on the carry of the frame, n-sources of electromagnetic radiation 9 with a frequency of radiation from near infrared to ultraviolet, connected through the interface node 10 with the optical fibers of Y-type 11, the outputs of which are installed in the Central holes of the perforation eyepieces with the ability to change the distance between their output ends and the surface of the eyes, as well as mounted on the frame with the possibility of rotation of the blinds 12, while the master oscillator 13 is connected to n inputs of series-connected modulator 14 with a modulation frequency corresponding to bioresonance the frequency of a healthy eye, a current amplifier 15, and an electromagnetic radiation source 9 made on a semiconductor element.

 The device operates as follows.

 Confidential interaction of the recipient doctor with the setting to actively overcome the disease with a positive end result of treatment and, finally, the physical interaction of the recipient's body with the direct effect of laser radiation on the pathological focus of the eye, constant magnetic field, massage.

 Glasses are worn on the head of the recipient, whose eye rushes into the distance to view distant objects through the perforation eyepieces 3, and the perforation holes selected within 1.5 mm in diameter. They include a power source and a mechanical vibrating massager 8, and the action of a constant magnetic field is due to the action of permanent magnets 2 on the corporal acupuncture points of the recipient's eye, on the infraorbital point Sai-Bai, as well as on the eye acupuncture points Qing-Ming, Tong-Zi-Liao and Yu-Yao, and the intensity of the constant magnetic field does not exceed 40 millitesla. As a permanent magnet, 2 FCs (COO FeO) were used. The use of semiconductor materials as active media makes it possible to directly convert electric current energy into electromagnetic radiation energy, thus, the action of an electric current on a semiconductor laser or light-emitting diode makes it possible to obtain an inverse population in a semiconductor with a different band gap, and to reduce the band gap in a semiconductor impurities are introduced that create separate local energy zones. This leads to the fact that prerequisites arise for the generation of photon radiation in the range from near infrared (IR) up to ultraviolet (UV). In a specific implementation, n = 4 sources of electromagnetic radiation 9 are used, made on ILPN-108 with a wavelength of 850 nm, ILPN-237A with a wavelength of 670 nm, LEDs with a wavelength of 560 nm, 480 nm, and an end face of Y-type fiber the optical fibers 11 are located from the surface of the eye within 2-20 mm, the radiation acts by the defocused beam on the retina of the recipient's eye, and the radiation power is 50 mlW per 1 cm square. In addition, the most important advantage of a semiconductor laser is that the radiation at its output is very easy to modulate, and this is due to the modulation of the current by the modulator 14 and the current amplifier 15 supplying it, so the radiation at the output of the semiconductor laser will be modulated with the bioresonant frequency of the healthy eye equal to 40 Hz.

 The coordination of the radiation of semiconductor lasers 9 and emitting LEDs 9 is carried out in the interface node 10 due to a mechanical prism with Y-type fiber optics 11, and the electromagnetic radiation comes simultaneously from all light sources 9 to both recipient eyes through the central hole of both perforation eyepieces 3 points, however depending on the phase of the course of various eye diseases, a sequential alternation of the radiation of light sources is used 9.

 Massage is carried out mechanically, using the action of a vibrating massager 8, for the occurrence of vibrational movements of various speeds and amplitudes, duration of exposure, as well as localization of exposure, moreover, due to the elasticity of the skin, mechanical vibrations pass along the surface and penetrate inside, causing vibration of internal deep-lying vessels and nerves. Vibration massager 8 consists of an electromagnetic coil, a handwheel with a displaced center of gravity, a power source and a three-position controller, which allows you to get two vibration modes. Moreover, through an elastic polyurethane gasket, a handwheel with a displaced center of gravity exerts pressure in the projection zone of the biological active points of the circulatory system, the nourishing eye and the lymphatic collector that provides lymph drainage from the eyes.

In addition, massage is carried out around the perimeter of the eye with trickles of air from the holes 5 of the air duct 4 supplied from a compressed air cylinder 7 through an air reducer 6 (for example, 669300M-4 or BAO-5), designed to reduce air pressure to a working pressure of 0.5 kgf / cm ² and maintaining this pressure with a constant, controlled pressure gauge (for example, type NTM-4).

 Moreover, the mechanical effect of air jets on the eye tissue causes an increase in the circulation of lymph, blood, and interstitial fluid.

 After the procedure, the impact of laser radiation on the eyes of the recipient, due to light saturation (solarization), turn off the radiation source 9 and darken (palming) the eyes of the recipient to relax and use the stored energy for the needs of the body by darkening the translucent blinds 12 of the recipient's eyes.

 Using low-energy laser radiation from near IR up to UV, which stimulates tissue metabolism and regeneration processes, increases oxygen consumption and oxidative potential, decreases vascular permeability, changes in hemodynamics and microcirculation, stimulates the immune system, it was possible to restore a harmonious intersystem relationship between functional recipient systems, affecting the nature of their afferentation in the central structures of the brain, and thereby change the nature of the regulatory effects on the part of the central nervous system, neuroreleasing, autonomic and peripheral nervous systems, on the cardiovascular, immune and other functional systems of the recipient's body, in addition, provides systemic correction of the humoral transport of internal organs (Pankov O.P. Practical ophthalmolymphology: Abstract of dissertation on the competition Scientific degree of Doctor of Medical Sciences, Moscow: 1995). Thus, in the end, the therapeutic effect of this light-treatment factor is realized and, in general, the principle of pathogenetic therapy is implemented.

 Example N 1. Myopia (adolescence).

 Recipient: Eugene SK, 15 years old.

 DS: Moderate myopia in both eyes.

 From the anamnesis: Myopia was detected 5 years ago.

 Examined: both eyes. The environments are transparent. The fundus is N.

 Refraction Sc. Myopia - 3, OD.

 OD Vis = 0.4c-2, OD = 0.8. OS Vis = 0.3c-2, OD = 0.8.

 After 2 sessions of systemic resonant laser therapy.

 OD Vis = 0.6. OS Vis = 0.7.

 After 5 OD sessions.

 Vis = 0.8. OS Vis = 0.9.

 After 8 sessions.

 OD Vis = 1.0.

 OS Vis = 1.0.

 Refraction OU Sc = Em.

 Example No. 2. Myopia (middle age). Astigmatism.

 Recipient: T.A. K, 35 years old.

 From the anamnesis: Myopia suffers from childhood. Both eyes were operated on (scleroplasty, keratotamia). The last 5 years, vision has decreased. Spectacle correction is incomplete.

 Surveyed: OU environments are transparent. There are radical scars on the corneas of both eyes.

Refraction Sc OD M 1,5D OS MM1,5D
MM1, OD - M 1, OD
OD Vis = 0.1c-1, OD = 0.7. OS Vis = 0.1c-1, OD = 0.7.

After 2 sessions of systemic bioresonance laser therapy
OD Vis = 0.3. OS Vis = 0.4.

After 5 sessions
OD Vis = 0.5. OS Vis = 0.6.

After 8 session
OD Vis = 0.9. OS Vis = 1.0.

 After 10 sessions, OD Vis = 1.0. OS Vis = 1.0.

 Refraction Sc = Em.

 Example No. 3. (Dystrophic disease of the eye).

 Recipient: Yu.I. Ar-va, 60 years old.

 DS: Myopic disease, chorioretinal dystrophy, initial cataract in both eyes. Chronic vascular insufficiency of the left optic nerve.

 Complaints: Over the past year, vision has sharply decreased with tolerable correction, pain in the left eye, aggravating with visual load, radiating in the depth of the orbit. Myopia has been suffering for 50 years.

 Examined: OU-cornea transparent. Dystrophic change in the iris (toxic heel, dystrophy of the pupillary floodplain). The lenses are a turbulent initial cataract with core densifications. Fundus: behind the light fleur. Myopic chorioretical dystrophy.

Electrophysiological examination:
CSFM OD = 38 Hz. OS = 30 Hz.

 OD Vis = 0.1c-4, OD = 0.2. OS Vis = 0.1c-4, OD = 0.15.

After 1 session of systemic bioresonance laser therapy
OD Vis = 0.4. OS Vis = 0.3.

After 2 sessions
OD Vis = 0.6. OS Vis = 0.5.

After 5 sessions
OD Vis = 0.8. OS Vis = 0.7.

After 10 sessions
OD Vis = 1.0. OS Vis = 1.0.

CFSM
After 1 session, OD = 41 Hz. OS = 35 Hz.

 After 5 sessions, OD = 42 Hz. OS = 40 Hz.

 After 8 sessions, OD = 42 Hz. OS = 41 Hz.

 After 10 sessions, OD = 42 Hz. OS = 42 Hz.

 After the 8th session, the pain in the left eye and the orbit completely disappeared.

 Example No. 4. Cataract.

 Recipient: S.N. K-B, 43 years old, electrician.

 DS: Post-traumatic complicated cataract of the right eye. From the anamnesis: 2 years ago, suffered an injury (hit by a high-voltage electric arc). Last year, vision in the right eye worsened.

 Examined: OD in the lens under the posterior capsule, a central cup-shaped opacification with grayish-brown vacuoles.

 OS N.

 OD Vis = 0.2c + 2, OD = 0.3. OS Vis = 1.0.

 After 5 sessions, OD Vis = 0.4.

 After 10 sessions, OD Vis = 0.5 + 1, 5D = 0.7.

 After 1 month, OD Vis = 0.6 + 1, OD = 0.8-0.9.

 Biomicroscopic partial resorption of opacities in the lens.

 Example No. 5. Glaucoma-cataract.

 Recipient: L.P.X-K, 70 years old.

 DS: Developed developed glaucoma in both eyes with IOP compensation. Initial senile cataract in both eyes. He suffers from glaucoma for 5 years. Both eyes were operated on for glaucoma (right eye - a year ago, left eye 2 months ago).

 Surveyed: Vis OU = 0.2 not cor. IOP OD = 20 mm.

 KCHSM OD = 29 Hz, OS = 25 Hz. IOP OS = 18 mm.

 Diffuse opacification of the lens of both eyes.

After 10 sessions of laser therapy
OD Vis = 0.4. CFCF = 32 Hz. IOP = 18 mm. OS Vis = 0.7.

 CFCF = 36 Hz. IOP = 17 mm.

 Example No. 6. Inflammatory eye diseases.

 Recipient: Arthur N., 6 years old.

 DS: Post-traumatic keratitis of the right eye. Complaints of pain, lacrimation from the right eye, swelling of the upper eyelid. From the anamnesis: 2 days ago during the game, my sister accidentally injured her right eye with a fingernail. When contacting the clinic, conservative treatment is prescribed (drops, ointment). However, no improvement has been noted.

 Surveyed: OD expressed edema in the eyelid, ptosis, spasm of the eyelids, chemosis of the conjunctiva on the cornea in the center of the disk surface, infiltrate 3-4 mm in diameter.

 Vis OD = facial count of fingers.

 After 1 session of bioresonance laser therapy, a significant decrease in edema of the eyelid, chemosis, a decrease in the size and density of the corneal infiltrate. Vis OD = 0.1.

 After 3 sessions, the edema of the eyelids is insignificant, the infiltrate is translucent in diameter 2 mm, Vis OD = 0.5.

 After 5 sessions, Vis OD = 1.0. Corneal infiltrate completely resolved, the eye opens independently. Light ptosis of the century.

 The technical and economic advantages of the invention are the possibility of prevention and therapeutic treatment of a wide range of eye diseases, where there is a procedure for metabolic disturbances in various tissues of the eye, through the use of combined, if necessary, exposure in a wide range of electromagnetic radiation, vibration and magnetic field, air cooling and pressure on biological active points, solarization and palming allows you to achieve extremely high results. Compared to medical and surgical methods, glasses are simple, less traumatic for the recipient under study, do not require large medical staff costs and are positively beneficial for the recipient, since there is radiation with a dosed flow of energy, which excludes the effect on the structure of the brain with vital centers, affecting only the cornea of the eye is superficial, without causing a burn, without making incisions and without injuring the eye. Moreover, glasses provide not only the optical effect of treatment, but also activate metabolic processes, normalize hemodynamics, improve blood circulation to the eye, and also positively affect lymphatic drainage in the body, for example, in the myocardium (Pankov O.P. Method for the treatment of coronary heart disease. Patent RU N 2040240, class A 61 F 9/00).

Postoperative complications are reduced by 10 times compared with the prototype, the value of the risk factor is reduced to 10 ^-3 , the accommodation reserve reserve is improved by 3, OD, the field of view is expanded by 20 degrees, the visual acuity is improved from 5 to 100%, process stabilization, reduction term of treatment, the exclusion of fear and pain factor in children, which is observed with parenteral administration of drugs.

 In addition, the used laser therapy method is available for widespread use on an outpatient and inpatient basis in medical institutions of any level, and it gives a high economic effect by reducing the number of bed days and reducing the cost of medications in the treatment of the most severe types of ocular pathology, and can also be used on an outpatient basis , in children's institutions, sanatoriums, schools for the prevention of myopia.

Claims (1)

 A device for treating eyes, comprising magnets located in the spectacle frame, characterized in that it is provided with opaque perforated eyepieces installed in the lens holders located around the perimeter of the lens holders, air ducts with openings on the inside of the frame, connected through a gearbox with a compressed air cylinder, mechanical a vibro-massager mounted on the transfer of the frame, n sources of electromagnetic radiation with a frequency of radiation from the nearest infrared to ultraviolet, connected by Through the interface with the Y-type fibers, the outputs of which are located in the central holes of the perforating eyepieces with the possibility of changing the distance between their output ends and the eye surface, as well as mounted on the frame with the possibility of turning the blinds, while the master oscillator is connected to n inputs of the modulator connected in series with a modulation frequency corresponding to the bioresonant frequency of a healthy eye, a current amplifier, and an electromagnetic radiation source made on a semiconductor element.

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