RU2582015C1 - Method of treating amblyopia in children - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology, and aims at treating amblyopia in children. Method comprises successive exposure on biologically active points VB1, TR23. For this purpose, EHF radiation in terahertz range is used. Method uses frequency of molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz. Power is 100 mcW. Exposure is carried out in continuous generation mode for 3 minutes on each point daily for 3 days.

EFFECT: higher efficiency due to higher uncorrected and corrected visual acuity.

1 cl, 2 ex, 2 tbl

Description

The invention relates to medicine in the ophthalmology section and can be used in ophthalmic hospitals, ophthalmic clinics, in children's eye protection rooms and health care facilities.

One of the most common and complex types of visual pathology in children is amblyopia. Amblyopia makes up a third of the entire pathology detected in children with ophthalmopathology [L. Wegner. Amblyopia treatment methods and their effectiveness // Ophthalmological Journal. - 2000. - No. 4 - S. 74-79]. In the treatment of amblyopia, numerous and various devices are currently used, which are based on phototherapy: general and local retinal irritation [Demin Yu.A., Pastukhov IV. et al., “Collection of scientific papers of the Russian National Ophthalmological Forum”, 2009, p. 338-340. Kukuyuk T.V., Gromakina E.V. “Collection of scientific papers of the Russian National Ophthalmological Forum”, 2009, p. 381-385.]. However, bright light activates the processes of lipid peroxidation in the retina, which leads to the accumulation of free radicals in it. An excess of free radicals has a destructive effect on the cell membranes of the retinal receptors, which can lead to a more pronounced visual impairment. Indirect percutaneous electrical stimulation of the visual analyzer is also used [T. Tymoshenko, A. Shtillerman. “The effects of complex therapy on visual functions in children with high degree of refractive amblyopia” Modern technologies in ophthalmology. Scientific and practical journal. - New technologies for the diagnosis and treatment of diseases of the organ of vision in the Far Eastern region. Khabarovsk, Issue No. 2, - 2014. - S. 139-140]. Moreover, the effectiveness of the treatment of amblyopia is from 40% to 70% [Kashchenko MA, Kashchenko TP, Kachalina GF, Antonova EG, Pedanova EK, Magaramova MD The study of fixation stability in children with amblyopia of varying degrees on the MP-1 microperimeter // VI Russian National Ophthalmological Forum. - Moscow. - 2013. - T. 1. - S. 230-231].

The ultimate goal of treating friendly strabismus and amblyopia is the formation of deep binocular vision. Long-term treatment of amblyopia with a slow increase in visual acuity leads to the formation of a functional scotoma, which delays the production of binocular vision.

The generally accepted position is the need for active treatment of strabismus and amblyopia in preschool children, which ensures the highest functional result as soon as possible. In addition, the restoration of binocular vision and full visual acuity by the time a child enters school is one of the main conditions guaranteeing the normal visual performance of the student, the further correct development of his visual analyzer.

Thus, the problem of treatment and rehabilitation of children with amblyopia remains relevant.

There is a method of treating amblyopia - indirect percutaneous electrical stimulation of the visual analyzer [Timoshenko T.A., Shtillerman A.L. "The effects of complex therapy on visual function in children with high-grade refractive amblyopia." Modern technologies in ophthalmology. Scientific and practical journal. - New technologies for the diagnosis and treatment of diseases of the organ of vision in the Far Eastern region. Khabarovsk, Issue No. 2, - 2014. - S. 139-140]. However, the course of treatment consists of 15 daily sessions. In addition, electrical stimulation is contraindicated in hysterical neurosis, epilepsy [Ulashchik B.C., Lukomsky IV. “General physiotherapy”, Minsk. - 2003. - 511 p.].

EHF-therapy is known to be used in ophthalmology for conjunctivitis, blepharitis, barley and myopia. Biologically active points of application are affected by punctured EHF-therapy with myopia [Balchugov V.A., Polyakova A.G., Anisimov S.I., Efimov E.I., Kornaukhov A.V. N.-Novgorod: Publishing house of the Nizhny Novgorod State University, 2002. - S. 62-63].

We first developed a method for the treatment of amblyopia, which consists in terahertz skin irradiation of two biologically active application points (BAPs) VB1, TR23 at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW in continuous generation mode. Point VB1 is located 0.5 inches outward from the lateral angle of the eye, in the recess and TR23 is located on the lateral end of the eyebrow. The session is carried out using the portable medical device of terahertz therapy "Orbit", developed at OJSC "Central Scientific Research Institute of Measuring Equipment" (Russia). Irradiation of each point is carried out alternately for 3 minutes for each BAT (for a total of 6 minutes) for 3 days. The proposed exposure regimen (3 minutes and 3 sessions) was optimal for obtaining a positive clinical effect, namely an increase in uncorrected and corrected visual acuity. During and after exposure to terahertz waves at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW of application points, none of the parents complained of a deterioration in the general condition of the child, children did not complain of any discomfort in the BAP sites.

The proposed method treated 16 patients (20 eyes) with refractive amblyopia from the age of 3 years 7 months to 6 years. Amblyopia of moderate degree was detected in 14 children, in 2 - a high degree with paramacular fixation.

Non-corrected visual acuity before treatment was 0.14 ± 0.07, with a correction of 0.23 ± 0.11. On the 5th day after the terahertz irradiation of BAP, at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW, a significant (p <0.05) increase in uncorrected visual acuity to 0.31 ± 0.04 was noted in patients corrected to 0.54 ± 0.09. Moreover, in two children, fixation from paramacular passed into foveolar, which contributed to increased visual acuity. Within 3 months, visual acuity significantly (p <0.05) continued to increase and amounted to 0.45 ± 0.11 without correction, with a correction of 0.69 ± 0.18. The dynamics of visual acuity before and after treatment with terahertz waves at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW is shown in table 1.

As an example, we cite two clinical cases that indicate an increase in visual acuity when exposed to terahertz waves on the BAT at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW.

Example No. 1. Patient N. 3 years 7 months. Ds: mild hyperopia of both, amblyopia of the middle degree of the left eye. Visual acuity of the right eye 0.5 with correction sph (+) 3.0 diopters = 0.7, left eye 0.1 with correction sph (+) 3.0 diopters = 0.2. Three terahertz skin irradiation sessions of two BAT VB1 and TR23 were conducted at a frequency of the molecular spectrum of radiation and atmospheric oxygen absorption of 129.0 GHz at a power of 100 μW in the continuous generation mode of 3 minutes for each point. On the 5th day after the treatment, the visual acuity of the left eye in the patient increased both without correction and with correction and amounted to: 0.2 with correction sph (+) 3.0 diopters = 0.5. After 3 months, the visual acuity of the left eye was 0.4 with a correction of sph (+) 3.0 diopters = 0.6.

Example No. 2. Patient L. 4 years 5 months. Ds: mild hyperopia of both, amblyopia of a high degree of the left eye. Visual acuity of the right eye is 0.5 with correction sph (+) 3.0 diopters = 0.8, of the left eye is 0.02 with correction sph (+) 3.0 diopters = 0.032. Fixation in the left eye is paramacular. Five days after three terahertz irradiation of BAT VB1, TR23, 3 minutes for each at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW in a patient, the visual acuity of the left eye increased both without correction and with correction amounted to 0.07 with correction sph (+) 3.0 diopters = 0.1. Fixation in the left eye has become foveolar. After 3 months, the visual acuity of the left eye increased to 0.1 with a correction of sph (+) 3.0 diopters = 0.4. Examples of treatment results for children with amblyopia are presented in table 2.

As can be seen from the data presented, patients improved visual acuity without correction and with correction, which allows us to proceed to the development of binocular vision.

Our proposed method for the treatment of amblyopia using terahertz skin irradiation of two biologically active points VB1, TR23 at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW in a continuous generation mode is non-traumatic, painless, does not require a doctor’s surgical qualification, can be performed nursing staff. The absence of adverse reactions in children with amblyopia receiving terahertz radiation of biologically active points at a frequency of the molecular spectrum of radiation and absorption of atmospheric oxygen of 129.0 GHz at a power of 100 μW in the continuous generation mode is of importance. The method has no contraindications.

The technique is simple, does not cause complications and is recommended for widespread use in ophthalmic practice.

Claims (1)

A method for the treatment of amblyopia in children, comprising alternating exposure to biologically active points VB1, TR23 with electromagnetic radiation, characterized in that they are exposed to the EHF of the terahertz range at the frequency of the molecular spectrum of radiation and atmospheric oxygen absorption 129.0 GHz at a power of 100 μW in continuous generation for 3 minutes at each point daily for 3 days.