RU2266724C2 - Method for treating patients for progressing myopia - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves applying bioresonance therapy using an apparatus during 10-20 min on meridians known as injured accelerated to tests carried out with IMEDIS-test. Induction therapy is applied with loop inductor fixed on head for 35 min and magnetic therapy is applied in series to both eyes at frequencies of 3.6 Hz, 4.9 Hz, 31,5 Hz, and 72,5 Hz 2 min with each frequency selecting magnetic field intensity to be equal to 30 mTesla units. Color therapy is applied by means of light-emitting diode-based apparatus consecutively operating in two colors selected from a set containing red, orange and green colors. The total treatment course is 8-10 sessions long given every third day.

EFFECT: enhanced effectiveness of treatment.

3 cl

Description

The proposed method of treatment relates to the field of ophthalmology and is intended for the treatment of patients with progressive myopia.

Progressive myopia is one of the urgent problems of modern pediatric ophthalmology, since this is the most common cause of decreased vision in children (Avetisov E.S. Myopia. M., 1999). According to domestic and foreign authors, there is an increase in the frequency of myopic and a decrease in the frequency of hyperopic refraction at a young age (Panteleeva O.A., Clinical and genetic analysis of refractive errors and associated syndromes: Dis ... Dr. med. Sciences, - M ., 1997 .-- 213 p.).

It has been established that the deficiency of visual afferentation affects not only the formation of the organ of vision, but also the structure and functioning of the brain. So, a long-term visual impairment affects the diencephalic-pituitary system, which ultimately leads to a weakening of the collagen of the sclera in individuals predisposed to this type of pathology.

Based on the analysis of numerous works by E.S. Avetisov, the leading role of accommodation in the processes of refractogenesis was proved, which under certain conditions of visual work and hereditary predisposition can lead to the formation of myopic refraction. A number of studies have shown that the weakness of the accommodation apparatus can be the result of exposure to the ciliary muscle of general disorders in the body, in particular, infectious and allergic diseases (Khaitova K.N. Influence of general diseases of the body on the accommodation capacity of the eyes in children. Myopia, M., 1974, p.24-27), of natally caused vertebrobasilar insufficiency (Berezina T.G. Neurological aspects of the problem of myopia in children. In Sat. Perinatal neurology, Kazan, 1983, p.140-142). A decrease in scleral resistance is also associated with a violation of calcium metabolism (Kolosov V.I. et al. Serum lactate dehydrogenase activity, some indicators of the acid-base state in venous blood and creatine excretion in children with different myopia dynamics. Ophthalm. Zh., 1982, No. 5, p. 292-295), a general increase in catabolic processes in the connective tissue in adolescents (Vinetskaya MI, Boltaeva Z.K. et al. Biochemical aspects of progressive myopia. Ophthalm. Journal, 1988, No. 3, p. 155-158).

Analogues of the proposed method of treatment are physical and medical methods of influencing the accommodation apparatus of the eye:

- various systems of training exercises to enhance accommodation, including using lenses and special devices (Avetisov E.S., Matz K.A. Method of training the ciliary muscle with weakened accommodation. In Sat: Materials of scientific conference on the prevention and treatment of the organ of vision in children. M., 1971 p.60-63);

- instillations of mesatone and pilocarpine, the intake of vitamins and vasodilators (Stishkovskaya NN Medications in the prevention and treatment of myopia. V.O., 1978, No. 5, p. 82-84);

- acupuncture, electropuncture, massage of the cervical-collar zone (Portnov F.G. Electropuncture reflexology. Riga, 1987, p. 215-218, Berezina T.G. Neurological aspects of myopia in children. In Sat Perinatal Neurology. Kazan, 1983, p. 140-142).

The closest analogue of the proposed method is a method of treating patients with progressive myopia, which consists in a transsclerical effect on the ciliary zone of the eye using infrared laser radiation with a wavelength of 1.3 μm in combination with visual exposure to the retina of highly coherent radiation of a helium-neon laser with a wavelength of 0, 63 μm (RU 2051610, 1966). The result of such an effect on the ciliary zone, according to the authors, is an improvement in blood circulation in the ciliary muscle and choroid, which leads to a normalization of the accommodation apparatus and an increase in retinal function. In turn, exposure to the eye with the help of a speckle structure created by a helium-neon laser stimulates the sensory system of the eye and reduces the voltage of the accommodation apparatus by turning off the installation accommodation mechanism.

However, this method only affects the ciliary body and retina, without affecting the pathogenetic mechanism of myopia development associated with the functioning of the neurohumoral system, metabolic disorders, disorders of the structure of connective tissue and other general somatic pathology.

The proposed method consists in the complex effect of electromagnetic waves on the body, in which, simultaneously with basic bioresonance therapy and induction therapy with brain programs, magnetotherapy with electromagnetic fixed frequencies is carried out, and then LED color therapy modulated in frequency.

The technical result of the proposed method is the stabilization of the progression of myopia.

The technical result is achieved due to the normalization of metabolic processes, the work of the neuroendocrine and immune systems of the body as a result of complex effects, including the systemic effects of bioresonance and induction magnetic therapy of the brain and local low-frequency magnetotherapy with individually selected frequencies in combination with individually selected frequency-modulated LED color therapy.

Important pathogenetic links of such therapy are: simultaneous activation of blood circulation in the membranes of the eyeball and in various structures of the brain associated with the work of the visual analyzer; activation of metabolism and energy processes in the cells of the retina, sclera and choroid. The impact on the diencephalic-pituitary system leads to inhibition of the processes of microfibrillar cleavage of collagen in the connective tissue.

Ultimately, such a complex effect results in an improvement in visual functions, an increase in the supply of accommodation, an increase in the resistance of the sclera to stretching and, therefore, stabilization of the anteroposterior axis of the eye.

The basic method of complex therapy to eliminate somatic pathology is adaptive bioresonance therapy (BRT). The essence of the method is to normalize bioelectric processes in the body that are disturbed as a result of exposure to external or internal pathogenic factors. At the same time, the intrinsic electromagnetic vibrations of organs and systems of the body through the IMEDIS-BRT apparatus are transformed in such a way that normal physiological vibrations do not change or amplify, and pathological ones are converted into normal or inverted. As a result, activation mechanisms are activated, the energy potentials of the cell membranes and mesenchyme are restored, and exo and endotoxins are eliminated.

Simultaneously with individually selected bioresonance therapy, induction therapy of the brain is carried out using special programs available in the MINI-EXPERT-D device. These programs are based on the influence of electromagnetic impulses in the form of frequencies corresponding to the frequencies of human brain waves, stimulating the restoration of disturbed functional rhythms of the thalamus. As a result of this effect, the regulatory function of the central nervous system with respect to the endocrine, immune and peripheral nervous systems is normalized, and so on, violations of the autonomic regulation of the accommodation mechanism are restored, eye microcirculation improves, sclera elasticity increases, and the negative effect of somatic pathology on the organ of vision decreases.

Simultaneously with BRT and induction therapy, magnetotherapy with fixed frequencies is carried out using an alternating magnetic field of very low intensity. Moreover, the oscillation frequency of this field is set in accordance with the intrinsic resonance frequency of the organ or tissue involved in the pathological process. We previously conducted studies that showed that in patients with progressive myopia, the resonance frequencies may be the frequencies of R. Voll (3.6 and 4.9 Hz) and P. Schmidt (31.5; 64; 65.5; 72 5; 94.5 and 95 Hz).

The choice of frequencies for magnetotherapy from the specified spectrum was carried out individually for each patient using a vegetative resonance test (Imedis test).

This testing technique is based on the analysis of the interaction of the patient's autonomic nervous system and the test method of exposure. Imedis-test is carried out by measuring the skin resistance index at a specific (reproducible) point. If the effect of any therapeutic factor, for example, a frequency beneficial to the body, changes the measurement indicators towards their normalization, then we can conclude about the possible positive effect of such an effect. This allows you to implement the principle of an individual approach to therapy in various patients. Testing is carried out using the hardware-software complex "MINI-EXPERT-DT" (Makhonkina LB Resonance test. Diagnostic and therapy options. Moscow, 2000).

As a result of studies, it was found that in patients with progressive myopia in more than 80% of cases, frequencies of 3.6 and 4.9 Hz according to R. Voll and 31.5, 72.5 according to P. Schmidt were determined. This allows us to consider them quite specific and is the basis for using in progressive myopia precisely these frequencies, and not the entire spectrum of frequencies possible with this pathology.

Another therapeutic factor of the proposed complex therapy for patients with progressive myopia is the frequency-modulated pulsed LED color therapy, which is carried out after bioresonance, induction and magnetic therapy.

The effect of visible light of various spectral composition on the organ of vision, as well as on paraorbital acupuncture points has a local and systemic effect on the patient's body. Each color is characterized by its specific effect on the somatic state of a person, causing a certain response in the form of changes in the functional activity of tissues, biochemical processes in the retina and photoreceptor zones of the skin. As a result of exposure to the right color, normalization or improvement of visual functions is achieved.

We performed pulsed color therapy using the LED device IMEDIS-CT. The following colors were used: green, yellow, orange, red, violet and purple, and each color was used with its characteristic private modulation. The choice of colors was carried out in accordance with the results of individual testing by means of the Imedis Test. With progressive myopia, green, orange and red colors were most often determined, which allows them to be used in the proposed complex therapy.

Unlike the closest analogue, this method allows you to have a systemic normalizing effect on the whole organism as a whole. in contrast to laser stimulation, BRT in combination with magnetic and color therapy have a wide range of frequency effects, and these effects are most specific for a given organism, firstly, due to the conversion of its own electromagnetic waves; secondly, by revealing resonant frequencies and colors characteristic of progressive myopia. It also normalizes the functioning of the neuroendocrine and immune systems, due to which patients have the elimination or compensation of the negative impact on the development of myopia, concomitant with somatic pathology.

The proposed method allows to increase the reserve of accommodation, to increase the resistance of the sclera to stretching due to a systemic effect on metabolic processes in the connective tissue, thus providing an effect on the two main pathogenetic mechanisms of progressive myopia.

The combination of all these therapeutic factors in the named sequence causes a potentiated, maximally pronounced therapeutic effect.

The method is as follows.

Bioresonance therapy is carried out on the IMEDIS-BRT apparatus, to which brass electrodes are connected that are in contact with the palms and soles of the patient's feet, as well as flexible electrodes made of conductive rubber that are fixed on the eyelids. The choice of meridians, which are predominantly affected by a particular patient, is determined by the results of preliminary diagnostics by the Imedis-test method. In this case, the most affected meridians, the state of the immune and hormonal systems, the presence of chronic inflammatory foci are tested. The duration of the procedure is 10-20 minutes, depending on the severity of the pathology.

Induction therapy of the brain is carried out simultaneously with bioresonance therapy on the device "MINI-EXPERT-DT" using a loop-shaped magnetic inductor fixed on the patient's head. The choice of program is also determined by testing. The duration of the procedure is 35 minutes, the intensity of exposure is 30 nT.

Simultaneously with bioresonance and induction therapy, magnetotherapy with fixed frequencies to the eye area is also carried out using the MINI-EXPERT-DT apparatus through cylindrical magnetic inductors fixed on the eyelids using a special rubber mask-glasses, and a loop-shaped inductor fixed on the patient's head. The choice of exposure frequencies is determined by testing from the following frequencies: 3.6 and 4.9 Hz (according to R. Voll), as well as 31.5; 64; 65.5; 72.5; 94.5 and 95 Hz (according to P. Schmidt). The magnetic field intensity is 30 mT, meander pulses, bipolar pulses. The duration of exposure to each frequency is 2 minutes.

At the end of these effects, pulse color therapy is carried out with two colors selected according to the results of testing on the LED device IMEDIS-CT. In this case, a frequency modulation of the effect characteristic of a given color is used. The color source is located at a distance of 50-60 mm from the patient’s eyes. The exposure of each color is 5 minutes.

In total, 8-10 sessions are conducted per treatment course. Clinical examples.

1. Patient L., age 11 years old, diagnosis: “OU - Mild progressive myopia.” Appealed on 02.16.01 with complaints of progressive visual impairment in the distance over the previous six months. At the initial treatment Visus OD = 0.3, with corr. 2D = 1.0; OS = 0.35, s-1.5D = 1.0. With automatic refractometry: OD = -2.25D, OS = -1.25D. Accommodation stock = 1,5D. A course of treatment of 10 sessions according to the described methodology. Bioresonance therapy was carried out along the meridians of the liver, gall bladder, lungs, colon, spleen and pancreas, stomach along with induction programs - 7-children and 16-training (sequentially) and magnetotherapy detected during testing with frequencies of 3.6 Hz, 4.9 Hz, 31.5 Hz, 72.5 Hz (in series). Then color therapy was carried out in green and orange colors (also sequentially). Such sessions of complex therapy were carried out after 2 days. When examined in December 2002 (10 months after treatment) Visus OD = 0.4, corr. -1.75D = 1.0; OS = 0.6, s-0.75D = 1.0. With automatic refractometry: OD = -2.0D, OS = -1.0D. The stock of accommodation = 2D. A repeated course of 5 sessions was conducted. When examined in December 2003 (1 year after the second course) Visus OD = 0.6, with corr. -1.5D = 1.0; OS = 1.0 without corre. With automatic refractometry: OD = -2.0D, OS = 1.12D. The stock of accommodation. = 3,5D.

Thus, after the main and repeated course of treatment with the above method, the patient for almost 2 years not only did not observe the progression of myopia, but also increased visual acuity on OD by 20% with a decrease in the power of corrective glasses, on OS the visual acuity reached 100% without correction, the stock of accommodation more than doubled. The treatment efficiency in this case is very high.

2. Patient G., born in 1988, diagnosis: "OU - Moderate progressive myopia." He turned on 6.06.2001 with complaints of deterioration of vision in both eyes, within 3 years myopia increased to 4 diopters. Visual acuity when handling: OU = 0.1 s corr. 4,5D = 1,0. With automatic refractometry: OD = -4.12D, OS = -3.9D. The stock of accommodation is OU = 0.5D. 8 sessions were carried out, including the entire complex, including: BRT on the meridians of the gallbladder, liver, spleen and pancreas, lungs and small intestine, simultaneously with induction magnetotherapy (program 7 for children), as well as magnetotherapy using exposure frequencies 3.6 Hz, 4.9 Hz, 31.5 Hz, 72.5 Hz (sequentially) obtained during testing; then color therapy was obtained by testing in green and red colors (sequentially). Sessions were held after 2 days. Additionally, between such sessions, sessions were conducted with the inclusion of only magnetotherapy with fixed frequencies and color therapy - a total of 5 additional sessions. Six months later, in January 2002, Visus OD = 0.15, corr. -4.5 D = 1.0; OS = 0.2, s corr-4.0D = 1.0. With automatic refractometry: OD = -4.12D, OS = -4.25D. The stock of accommodation is OU = 2D. A similar course of treatment was carried out. January 10, 2003 (one year after the second course of treatment) Visus OU = 0.2, with corr-4,5D = 1,0. With automatic refractometry, OU = -4.5 D. The stock of accommodation OU = 4D. Another repeated course of treatment was carried out out of 5 sessions, including 3 sessions with a full complex of treatment and 2 sessions of magnetotherapy only in combination with color therapy (without BRT and induction therapy). September 10, 2003 (8 months after the second course) Visus OD = 0.3, with corr.-4.5D = 1.0; OS = 0.2, with Kopp.-4,5D = 1.0. With automatic refractometry: OU = -4.75D. The stock of accommodation is OU = 7D.

After the first and two repeated courses of treatment, the patient showed a significant slowdown in the progression of high myopia (according to automatic refractometry by 0.6 D on OD and 1.25 D on OS) for more than 2 years of observation. At the same time, there is a multiple increase in the supply of accommodation in both eyes, which allows us to predict a further slowdown in the progression of myopia. This shows that the proposed method of treatment is effective even with the pronounced progression of high myopia.

Thus, the proposed method for the treatment of patients with progressive myopia can stabilize or significantly slow down the progression of the process due to complex systemic and local effects on important regulatory mechanisms of the whole organism and organ of vision in particular, as a result of which there is a counteraction to the two main pathogenetic mechanisms of myopia progression - reduce the accommodative ability of the eye and reduce the resistance of the sclera to stretching.

The effectiveness of the method is determined by the specificity of the effects of the above therapeutic factors of complex therapy, as well as their combination in the named sequence.

Claims (3)

1. A method of treating patients with progressive myopia, characterized in that they carry out bioresonance therapy on the IMEDIS-BRT apparatus for 10-20 minutes along the meridians most affected by the results of testing using the IMEDIS test, simultaneously carry out induction therapy with using a loop-shaped inductor fixed on the head for 35 minutes and magnetotherapy to the area of both eyes in series with frequencies of 3.6 Hz, 4.9 Hz, 31.5 Hz and 72.5 Hz for 2 minutes with a magnetic field induction of 30 mT, after which carry out color therapy with I will use the LED device "IMEDIS-CT" in two colors, sequentially for 5 minutes, selected from the following: red, orange, green; the total number of sessions is 8-10 in two days. 2. The method according to claim 1, characterized in that in addition between the sessions carry out magnetotherapy and color therapy. 3. The method according to claim 1, characterized in that the treatment is repeated after 6-12 months.