RU2688024C1 - Method of treating amblyopia - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to ophthalmology. For treating amblyopia combined effect on ophthalmic and adjacent areas by light radiation and constant magnetic field with induction 20–45 mT. Combined exposure is carried out in stages, at an initial stage on an orbital area and adjoining areas influence for 3–5 min light radiation in infra-red range. Impulse radiation with pulse duration of 40–50 mcs and Rimp power is then applied. not more than 2.5 W, followed by a series of pulses in the form of a meander for t = 3–7 min with simultaneous exposure to a constant and modulated magnetic field with a magnetic field pulsation frequency of 10–15 Hz. Then, each eye is alternately exposed to a focused laser beam with a spot diameter of 0.6–1.1 mm, wherein the power of the laser radiation is set to not more than 0.05 mcW. Laser beam is exposed to focus of the laser beam on the centre of the pupil located on the visual axis of the eye connecting the centre of crystalline lens and the macula on the retina.EFFECT: method provides higher clinical effectiveness and stability of the positive state of the patient's visual apparatus.1 cl

Description

The invention relates to medicine, namely to ophthalmology, and can be used in the treatment of amblyopia.

There is a method of treating amblyopia (RF patent №2438630, IPC A61F 9/00, published on 06/16/2010), which provides for the effect on the retino-cortical connection with pattern stimulation, while as a source of stimulation use a horizontal kaleidoscope containing colored translucent elements of arbitrary shape and multicolor light guide, carry out simultaneous exposure to light with different wavelengths, changing within the limits of visible light, and changing figures, with visual acuity greater than or equal to 0.1, use this ementy with sizes in the range of 3-4 mm, when visual acuity less than 0.1 - the measurement range of 6-7 mm, the stimulation is carried out for 20 days daily at 15 min.

A known method for the treatment of dysbinocular amblyopia (ed. St. USSR №1769879, IPC A61F 9/00 from 10.23.92, based on the impact on the area of the yellow spot of the retina by radiation of an argon laser operating in pulsed mode.

A disadvantage of known methods is the low efficiency and duration of treatment.

The closest to the technical nature of the present invention is a known method for the treatment of amblyopia (RF patent №2128029 IPC A61F 9/00, published 03/27/1999, based on the impact on the region of the yellow spot of the retina by laser radiation, while additionally affect the orbital part of the circular muscle eyes incoherent radiation with a wavelength of 860-930 nm and a power of 120 mW and a magnetic field with a strength of 20-45 mT, with a wavelength of laser radiation equal to 890 nm with a radiation power of 2-10 mW.

The disadvantage of this method of treatment of amblyopia is lack of effectiveness.

Technical and therapeutic result, which consists in increasing the effectiveness of treatment and ensuring the stability of the positive state of the patient's visual apparatus, is achieved in the method of treating amblyopia, based on the combined effect on the orbital and adjacent areas with light radiation and a constant magnetic field with an induction of 20-45 mTl, the combined effect is carried out in stages, at the initial stage the orbital area and the adjacent areas are exposed for 3-5 minutes by light radiation in the infrared range, then exposed to pulsed radiation with a pulse duration of 40-50 μs and power P _imp. no more than 2.5 W, after which they are affected by a series of pulses in the form of a meander for t = 3-7 minutes. with simultaneous exposure to a constant and modulated magnetic field with a pulsation frequency of the magnetic field of 10-15 Hz, and then alternately, an eye of a laser with a spot diameter of 0.6-1.1 mm is applied to each eye, while the laser power is set to no more than 0 , 05 mW.

To improve the accuracy of exposure to each eye, an individual distance between the centers of the pupils of the eyes is determined, and the laser beam is applied to focus the laser beam on the center of the pupil located on the visual axis of the eye connecting the center of the lens and yellow spot on the retina.

The essence of the proposed method consists in a phased combined effect on the orbital part of the circular and longitudinal muscles of the eye and adjacent areas with incoherent light radiation, a constant and pulsed magnetic field.

At the initial stage, the circular and longitudinal muscles of the eye are affected for 3-5 minutes by light radiation in the infrared range.

Then, pulsed radiation with a pulse duration of t = 40-50 μs and a power of P _imp. no more than 2.5 W by a series of pulses in the form of a meander for t = 3-7 minutes.

At the same time, they exert a constant and modulated magnetic field with an induction of 20–45 mT and a frequency of magnetic pulsation of 10–15 Hz.

This allows for a deeper penetration of infrared radiation and a magnetic field into the peripheral muscles of the eye, which, in turn, provides a more efficient stimulation of the eye muscles.

After that, alternately, each eye is subjected to exposure to a focused laser beam with a spot diameter of 0.6-1.1 mm, while the laser power set not more than 0.05 μW.

For targeted exposure, an individual distance between the centers of the pupils of the eyes is determined, and the laser beam is applied with focusing the laser beam on the center of the pupil located on the visual axis of the eye connecting the center of the lens and the yellow spot on the retina.

The impact on the circular and longitudinal muscles of the eye is carried out by radiation in the infrared range using light diodes with a constant and modulated magnetic field using miniature magnetic elements arranged in special glasses along the contour of the orbit.

The area of the yellow spot of the retina is affected by coherent radiation of a low-power laser.

Such a complex modulated electromagnetic, pulsed infrared effect on the orbital part of the circular and longitudinal muscles of the eye and the laser effect on the back of the eye and the visual analyzer leads to a significantly more effective stimulation of electrogenesis, metabolism and hemodynamics of these structures of the eye, which leads to increased treatment efficiency and stability results.

The indications for the application of the proposed method are various types of amblyopia. The impact can be carried out simultaneously on both eyes, and on one of them, and depending on the one-or two-sided nature of the disease, the effects of these types of stimulation can be used separately.

The course of treatment consists of several sessions held in 1-2 days. The number of required sessions is determined by the attending physician.

The treatment used the technical development of OKB MEI JSC, which contains special glasses with infrared emitters, miniature magnets, low-power lasers, creating focused radiation in the form of a spot with a diameter of 0.6-1.1 mm, an electronic circuit and a control panel that allows you to set the necessary modes (not shown).

In the Center for Therapeutic Ophthalmology, this method treated 20 patients aged 5-12 years with a diagnosis of amblyopia (23 eyes in total). A high degree of amblyopia was diagnosed in 7 patients in 9 eyes, a moderate degree of amblyopia in 4 eyes (in 4 patients) and a weak degree of amblyopia in 10 eyes (in 9 patients). The indications for the use of this method are refractive (anmyzometropic) amblyopia; disbinokulyarnaya amblyopia; obscuration amblyopia (after removing the root cause). It should be noted that the therapy of refractive (anmyzometropic) amblyopia is most effective in the first decade of a child’s life.

The course of treatment is 10 days, sessions were held daily.

During the treatment sessions, the following parameters of electromagnetic influence were set:

at the initial stage, infrared pulsed radiation for 3-5 minutes and power P _imp. no more than 2.5 W, and a magnetic field with an induction of 20-45 Mt;

at subsequent stages, pulsed radiation by a series of pulses for 3-7 minutes with a pulsation frequency of 10-15 Hz and with a pulse duration of 40-50 μs;

The laser power was set to no more than 0.05 μW.

After the sessions, the patient needs rest with his eyes closed (5 minutes).

A positive effect was achieved in 19 patients for 21 eyes. Patients noted improvement in health, the disappearance of discomfort in the area of the affected eye.

During the control, the intensification of functional processes in the central cone apparatus of the retina was established, which was recorded on the electroretinogram by an increase in wave amplitude, and the amplitude characteristics of visual evoked potentials increased, which led to an increase in visual acuity in patients.

When the treatment by the proposed method was excluded pain, discomfort, the occurrence of allergic reactions and intoxications.

Significantly reduced costs of treatment compared with treatment by the known methods of treatment of amblyopia. The proposed method allows to increase the effectiveness of treatment of amblyopia and ensures the stability of the results.

Claims (2)

1. A method of treating amblyopia, based on a combined effect on the orbital and adjacent areas with light radiation and a constant magnetic field with an induction of 20-45 mT, characterized in that the combined effect is carried out in stages, at the initial stage, the orbital area and the adjacent areas are affected for 3 -5 min by light radiation in the infrared range, then exposed to pulsed radiation with a pulse duration of 40-50 μs and power P _imp. no more than 2.5 W, after which a series of pulses in the form of a meander is applied for t = 3-7 min, simultaneously exposed to a constant and modulated magnetic field with a pulsation frequency of the magnetic field of 10-15 Hz, and then alternately on each eye is carried out by a focused laser beam with a spot diameter of 0.6-1.1 mm, while the laser power set no more than 0.05 µW. 2. The method according to p. 1, characterized in that determine the individual distance between the centers of the pupils of the eyes, while the exposure to the laser beam is performed with ensuring focusing of the laser beam on the center of the pupil located on the visual axis of the eye connecting the center of the lens and the yellow spot on the retina.