RU2274477C1 - Method for treating children for refraction amblyopia - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves applying combined treatment with pulsating infrared laser radiation with λ=890 nm and pulse power of 60±30 mW, pulsating noncoherent infrared laser radiation with λ=860-960 nm and mean power of 60±30 mW, pulsating red laser radiation with λ=600-700 nm and frequency of 2 Hz and constant magnetic field of intensity equal to 35±10 mTesla units applied to occipito-parietal head zone, neck and carotid sinuses. Infrared laser radiation of pulse power equal to 20 W, pulsating laser radiation and noncoherent infrared laser radiation frequency equal to 1000 Hz is applied to occipito-parietal hairy head zone from coronal suture of parietal bone to occipital opening along median line of aponeurosis and to parietal zone from upper temporal line to mastoid process on both sides in performing scanning movement from top to down and action duration of 6-8 min. Then, the action is applied to a zone from occipital opening to C₆-Th₂ in paravertebral movement from top to down along the long dorsal extensor muscles with infrared laser radiation having pulse power of 20 W, pulsating noncoherent infrared laser radiation frequency being equal to 50 Hz and action duration equal to 4-6 min. Then, carotid sinuses are exposed to infrared laser radiation from two sides with pulse power of 8 W, pulsating noncoherent infrared laser radiation frequency being equal to 50 Hz and 2 min long exposure time. The total treatment course is 8-12 months long.

EFFECT: full scale recovery of peripheral and cortical divisions of optic analyzer.

1 tbl

Description

The invention relates to medicine and will find its application in ophthalmology for the treatment of refractive amblypia in children.

In the structure of the formation of childhood blindness, low vision and disability, high amblyopia takes third place. The main form of prevention of blindness and disability is the timely elimination of removable visual disorders, effective rehabilitation treatment - the first stage of rehabilitation (E. Libman, Materials of the Russian interregional symposium "Elimination of eliminated blindness: WHO World Initiative", Moscow, 2003, p. 42).

Existing methods for pleoptic treatment of amblyopia are not always effective. In this regard, there is a need to develop new, more effective methods of treating amblyopia in children.

In the pathogenesis of the development of refractive amblyopia, special attention is paid to the state of the visual analyzer and its two main ways of transmitting and processing information - retinocortical and ennephaloretinal. A patient with refractive amblyopia does not have the ability to create a clear image from nearby and distant objects on the retina. Due to the inadequate impulses entering the visual cortex of the brain, inhibition of the central neuro-visual apparatus and the development of refractive amblyopia (RA) occur, as evidenced by the study of visual evoked cortical potentials (VECP). When RA is proportional to a decrease in visual acuity, the amplitude of VECP decreases and an increase in the latency period of the P ₁₀₀ component is noted (Shamshinova AM, Volkov VV, Functional research methods in ophthalmology. - Moscow, Medicine, 1999. - P.252-253 )

Conducted research on the medical-scientific and patent literature revealed various physiotherapeutic methods of treating this pathology.

In the collection of scientific articles "Actual problems of pediatric ophthalmology", Moscow, 1990, pp. 63-67, L.F. Linnik et al. in the article "The results of combined treatment of amblyopia in children with magnetostimulation and laser stimulation of the retina" with the aim of improving the functional state of the visual analyzer in children with amblyodia of varying degrees, they suggested using magnetostimulation using the Mastip-1 stimulator, which forms a rotating magnetic field with a maximum induction of 150-200 MT for 30 minutes in one session, a course of 10 procedures. Laser stimulation of the macular region was carried out using a helium-neon laser for 3 minutes at a power of 100 mW, the diameter of the light spot per pupil 5 mm, in a pulsed mode with a frequency of 1 Hz, a course of 6 sessions every other day. As the authors themselves note, the disadvantage of the proposed method is its low efficiency in children with high degree of amblyopia.

In the materials of the scientific-practical conference "Complex use of lasers in ophthalmology, new technologies, equipment." Kaluga, 1999, p. 42-43, I.A. Deuter et al. in the article “Experience in the use of low-energy lasers in the complex treatment of patients with ophthalmopathology” used “Prof. Pankov's Glasses” - a 4-channel semiconductor laser with a transpupillary radiation power density not exceeding 50 mW / cm ² with a pulsed exposure mode. ALT "Nega" was also used - a laser stimulator with a wavelength of 0.89 microns; the duration of the laser pulse 0.5 to 70 ns, the pulse repetition rate from 2 to 1500 Hz and Ulei-2K, with a wavelength of 0.89 μm, the pulse duration of 250 ns, the frequency from 2000 to 33000 Hz. Irradiation was carried out through the eyelids, a session of 5 minutes daily, ten-day course. Treatment was based on a combination of no more than two techniques. The disadvantages of the proposed method are the impact only on the peripheral section of the visual analyzer, the lack of visual control with closed eyelids of the patient, the instability of the results and low treatment efficiency.

In the collection of scientific articles "Modern Methods of Treatment in Ophthalmology", Nalchik, - 2002, S.34-36, G.I.Dolzhich, E.S.Driga in the article "New aspects of the pathogenesis and treatment of amblyopia" proposed to use cortexin, as neuroprotective and substantiated its high efficiency in the endonasal route of administration by electrophoresis in combination with electrical stimulation and sequential magnetotherapy. The disadvantages of the proposed method are the limitation of the number of individuals with drug allergies or ENT pathology, the difficult procedure for preschool children and the instability of treatment results.

In the patent literature there is information about methods of treating refractive amblyopia.

Patent No. 2201729 (2003, Bull. No. 10) protected the "Method for the treatment of refractive amblyopia", which consists in influencing the paravertebral, collar areas, the trigeminal nerve exit area and the forehead area with electric pulses with a pulse frequency of 50-130 Hz, the delay between pulses 20 ISS using the SCENAR device. Exposure is carried out 1 time per day, during the treatment of 7-11 sessions. Significant disadvantages of the proposed method are: firstly, the subjective selection of the level of the acting signal for the comfort of sensations, which is little feasible in patients of preschool age; secondly, there is a high probability of error in choosing the optimal individual treatment regimen for each patient; thirdly, low therapeutic efficacy and instability of the results.

Patents No. 2146910 (2009, Bull. No. 9), No. 2147424 (2000, Bull. No. 11), No. 2150253 (2000, Bull. No. 16), No. 2161939 (2001, Bull. No. 2) it is proposed, in combination with other hardware methods for treating amblyopia, to use methods of laser stimulation of the central region of the retina, which differ from each other in the localization of exposure, the range of wavelengths, pulse duration, and parts of the spectrum of the laser beam. A common drawback is the impact on the peripheral section of the visual analyzer and, therefore, low efficiency and instability of treatment results.

The closest in technical essence is the "Method for the treatment of amblyopia" patent No. 2128029 (1999, Bull. No. 9), providing a comprehensive (electromagnetic, infrared and laser) effects on the posterior parts of the eyeball and intracranial sections of the visual analyzer. The technique is carried out by irradiating the orbital part of the circular muscle of the eye with incoherent radiation with a wavelength of 860-930 nm and a power of 120 mW, a magnetic field of 20-45 mT and laser radiation with a wavelength of 890 nm and a radiation power of 2-10 mW. Significant disadvantages of the proposed method are:

- the impact only on the peripheral section of the visual analyzer;

- lack of stimulation of the cortical section of the visual analyzer, as the main determining factor in the pathogenesis of refractive amblyopia;

- low therapeutic efficacy and instability of treatment results.

The aim of the present invention is to increase the effectiveness of treatment by obtaining more stable and high therapeutic results, no risk of complications and side effects, reduce treatment time.

This goal is achieved by physical action using quantum therapy by percutaneous contact technique on the occipital-parietal region of the head, neck and carotid sinuses.

The claimed method is as follows.

The treatment is carried out using the RIKTA-04/4 magneto-infrared laser therapeutic apparatus (M2D, M22D) (passport with the technical description and operating instructions, 2002; reg. Doc. No. 29/06010201 / 2053-01; MILTA-PKP PIT ) They use emitters "Shower 1" (having 10 laser diodes with a power of up to 4 W each) and "Basic" (pulsed power of infrared (IR) laser radiation of at least 8 W) with λ = 890 nm, with pulsed incoherent infrared radiation with λ = 860-960 nm and an average power of 60 ± 30 mW, pulsed red radiation with λ = 600-700 nm and a frequency of 2 Hz and a constant magnetic field with magnetic induction of 35 ± 10 mT.

The patient is placed on the couch horizontally upside down. First, a scan is performed, acting on the occipital-parietal region of the scalp from the coronary suture of the parietal bone to the occipital foramen along the midline of the aponeurosis and on the parietal region from the upper temporal line to the mastoid process from top to bottom on both sides of the Soul 1 emitter with laser pulse power IR radiation of 20 W, with a frequency of pulsed laser and incoherent IR radiation of 1000 Hz, with pulsed red radiation and a constant magnetic field lasting 6-8 minutes.

Then, without changing the patient’s position, they act on the neck area with a “Shower 1” emitter with a pulsed power of laser IR radiation of 20 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field, scanning movement paravertebrally from above down the long extensor muscles of the back from the occipital foramen to C ₆ -Th ₂ lasting 4-6 minutes.

Then the patient is seated facing the doctor, the “Main” emitter is installed on the carotid sinuses on both sides and treated with this emitter with a pulse power of laser IR radiation of 8 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and permanent magnetic field, exposure for 2 minutes.

The quantum therapy used is multifactorial (combined), simultaneous exposure to pulsed infrared laser radiation, pulsed broadband infrared radiation, pulsating red radiation and a constant magnetic field. It is known that the main therapeutic factor in quantum therapy is pulsed infrared laser radiation from a semiconductor gallium arsenide laser diode.

Laser radiation has monochromaticity (narrow cavity), spatial and temporal coherence and polarization and, thanks to these properties, has a powerful stimulating effect on blood circulation, membrane cell metabolism, activates neurohumoral factors, immunocompetent systems, harmonizes hormonal metabolic factors.

The simultaneous use of pulsating broadband infrared radiation from semiconductor LEDs has less biological efficiency than laser due to the greater spectral breadth, incoherence and non-polarization, but its distinctive advantage is the penetration to greater depth and a harmonizing effect on the tone of the central and autonomic nervous system.

The pulsating broadband red radiation in the composition of this exposure visualizes the treatment area, has a weak warming and beneficial psychotherapeutic effect.

Finally, a constant magnetic field rotates the axes of molecular magnetic dipoles, increasing the internal energy of the molecules, thereby exerting a noticeable potentiating effect on all the components of multifactor quantum therapy.

All of the above therapeutic factors, acting simultaneously (synergistically), mutually reinforce each other and thereby determine the unique physiotherapeutic therapeutic and energy-harmonizing, prophylactic effects of multifactorial effects.

The device "RIKTA-04/4" allows for blood processing non-invasively (ie without damaging the skin). Blood is an active photoreceptor for the near infrared range, therefore, at a low power flux density, high therapy efficiency is achieved. On the other hand, low quantum energy (1.5 eV) makes the procedure almost safe, and a large emitter area (20 cm ² ) allows for more than 1 BCC (circulating blood volume) to be activated in a short time (about 10 minutes) (Methodological recommendations for use apparatus of quantum therapy "RIKTA" // Edited by Yu.B. Kheyfets, Moscow, 2002, p.16, 235-237).

Thus, the proposed method allows to increase the threshold of perception of the cortical section of the visual analyzer, normalize cerebral and systemic hemodynamics, balance the processes of excitation and inhibition in the cerebral cortex, restore visual disability and mental status.

Clinical example 1.

Patient V., 6 years old (individual outpatient card No. 22/03).

Diagnosis: Moderate farsightedness, moderate refractive amblyopia of both eyes, eye asthenopia. Concomitant diagnosis: Vasomotor rhinitis with impaired nasal breathing, chronic course.

At the initial treatment, the patient complained of rapid visual fatigue of the eyes, discomfort in the eyes, increased photophobia, decreased visual acuity and restless sleep.

From the anamnesis of the disease, the patient conducted stimulation courses of the peripheral section of the visual analyzer (laser stimulation of the macular region and electrical stimulation of the optic nerve) for 3 years. Unstable and low positive dynamics of visual functions were noted.

On examination, it was found:

Visual acuity (OD) = 0.1 with sph (+) 4.0 D = 0.3

Visual acuity (OS) = 0.15 with sph (+) 4.0 D = 0.3

The mobility of the eyeballs in full, symmetrical.

The nature of vision is binocular without a leading eye.

Electrophysiological studies of the visual analyzer revealed changes in the outer and inner layers of the retina. The retinal electrical sensitivity threshold (ELF) was increased to 60 μA, and the optic nerve electrical lability (EL) was reduced to 35 Hz in both eyes.

The data of rheoencephalography (REG) indicated a slight deterioration in hemodynamics in the basin of vertebrobasilar (VBB) vessels - the volumetric blood flow of the vessels was 0.175 Ohms, the rheographic index was reduced to 1.8. Depprography data revealed a moderate decrease in the linear velocity of blood flow (LSC) in the pool of vertebral arteries (PA) to 17.7 cm / s. The length of the anteroposterior axis (PZO) of the right eye is 22.95 mm, the left eye is 22.82 mm.

The patient was treated according to the proposed method using a magnetic laser therapeutic apparatus "RIKTA-04/4".

- acted with a scanning movement from top to bottom on the occipital-parietal region of the scalp from the coronary suture of the parietal bone to the occipital foramen along the midline of the aponeurosis and on the parietal region from the upper temporal line to the mastoid process on both sides of the Soul 1 emitter with pulsed laser IR power -radiation of 20 W, with a frequency of pulsed laser and incoherent infrared radiation of 1000 Hz, with pulsed red radiation and a constant magnetic zero exposure duration of 6 minutes, then

- acted on the neck area with the “Shower 1” emitter with a pulsed power of laser IR radiation of 20 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field scanning movement paravertebrally from top to down along the extensor muscles of the back from the occipital foramen to C ₆ -Th ₂ lasting 6 minutes, then

- acted on the carotid sinuses on both sides of the “Main” emitter with a pulse power of laser IR radiation of 8 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field, exposure time of 2 minutes, treatment amounted to 10 sessions.

After treatment with this technique, the patient underwent asthenopic complaints, normal nasal breathing and sleep.

Visual acuity without correction increased to 0.3 in both eyes. Visual acuity with correction increased to 0.7 in the right eye and to 0.8 in the left eye, therefore, visual "comfort" appeared during the operation of the visual analyzer.

The increase in visual functions was combined with the normalization of electrophysiological parameters. The threshold (EC) of the retina decreased to 45 μA, (EL) of the optic nerve increased to normal - 45 Hz.

The positive dynamics of electrophysiological data correlated with hemodynamic parameters: on REG - the rheographic index reached the norm (1.1), the volumetric blood flow in the vessels (WBV) increased to 0.185 Ohms and dopplerographic studies revealed an increase in LSC in the vertebral arteries to the norm - 19.5 cm / from.

Clinical example 2.

Patient S., 4 years old (individual outpatient card No. 12/03).

Diagnosis: Farsightedness of a high degree, refractive amblyopia of a high degree of both eyes, asthenopia of the eyes.

Concomitant; diagnosis: Minimum cerebral dysfunction (MMD), hyperdynamic syndrome.

During the initial treatment (according to the parents), the sick child had rapid visual fatigue of the eyes, refusal to wear glasses, increased photophobia, low visual acuity, restless sleep, tearfulness and disinhibition.

From the anamnesis of the disease: the patient irregularly uses glasses for constant wear for 3 months; he underwent a 2-week course of stimulation of the peripheral section of the visual analyzer (laser stimulation of the macular region and electrical stimulation of the optic nerve). The patient at the time of examination has asthenopic complaints and low visual function.

On examination, it was found:

Visual acuity (OD) = 0.02 with sph (+) 7.0 D = 0.15

Visual acuity (OS) = 0.03 with sph (+) 7.0 D = 0.1

The mobility of the eyeballs in full, symmetrical.

Electrophysiological studies of the visual analyzer revealed changes in the outer and inner layers of the retina. The retinal electrical sensitivity threshold (ELF) was increased to 70 μA, and the optic nerve electrical lability (EL) was reduced to 25 Hz in both eyes.

The data of rheoencephalography (REG) indicated a significant deterioration in hemodynamics in the basin of vertebrobasilar (VBB) vessels - the volumetric blood flow of the vessels was 0.145 Ohms, the rheographic index was reduced to 0.6. Doppler data revealed a marked decrease in the linear velocity of blood flow (LSC) in the pool of vertebral arteries (PA) to 13.7 cm / s. The length of the anteroposterior axis (PZO) of the right eye is 21.35 mm, the left eye is 21.22 mm.

The patient was treated according to the proposed method using a magnetic laser therapeutic apparatus "RZhTA-04/4":

- acted with a scanning movement from top to bottom on the occipital-parietal region of the scalp from the coronary suture of the parietal bone to the occipital foramen along the midline of the aponeurosis and on the parietal region from the upper temporal line to the mastoid process on both sides of the Soul 1 emitter with pulsed laser IR power -radiation of 20 W, with a frequency of pulsed laser and incoherent infrared radiation of 1000 Hz, with pulsed red radiation and a constant magnetic field lasting 6 minutes, then

- acted on the neck area with the “Shower 1” emitter with a pulsed power of laser IR radiation of 20 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field scanning movement paravertebrally from top to down along the extensor muscles of the back from the occipital foramen to C ₆ -Th ₂ lasting 4 minutes, then,

- acted on the carotid sinuses on both sides of the “Main” emitter with a pulse power of laser IR radiation of 8 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field, exposure time of 2 minutes, treatment amounted to 12 sessions.

After treatment with this technique, the patient underwent asthenopic complaints, there was comfort with constant wearing of glasses, sleep was normal, and the psychosomatic state improved.

Visual acuity without correction increased to 0.1 in both eyes. Visual acuity with correction increased to 0.4 in the right eye and to 0.5 in the left eye (which corresponds to the lower limit of the age norm). The increase in visual functions was combined with the normalization of electrophysiological parameters. The threshold (EC) of the retina decreased to 55 μA, (EL) of the optic nerve increased to normal - 35 Hz.

The positive dynamics of electrophysiological data correlated with hemodynamic parameters: on REG - the rheographic index reached the norm (1.0), the volumetric blood flow in the vessels (VBB) increased to 0.175 Ohms and dopplerographic studies revealed an increase in BFV in the vertebral arteries to the norm - 18.5 cm / from.

Clinical example 3.

Patient I., 8 years old (individual outpatient card No. 31/02).

Diagnosis: Farsightedness of an average degree of both eyes, refractive amblyopia of a weak degree of both eyes, asthenopia of the eyes.

Concomitant diagnosis: Astheno-neurotic syndrome.

During the initial treatment, she complained of frequent headaches in the afternoon, sometimes accompanied by darkening in the eyes, rapid eye fatigue.

From the anamnesis of the disease, it was revealed that the patient regularly used spectacle correction for 3 years, conducted training exercises for the accommodative apparatus of the eye and received percutaneous electrical stimulation of the peripheral section of the visual analyzer with two-week courses 2 times a year.

On examination, it was found:

Visual acuity (OD) = 0.4 with sph (+) 3.0 D = 0.6

Visual acuity (OS) = 0.4 with sph (+) 3.0 D = 0.5

The mobility of the eyeballs in full, symmetrical.

The nature of binocular vision without a leading eye. Refracting

environments are transparent. No pathology was detected in the fundus.

Electrophysiological studies of the visual analyzer revealed minor changes in the outer and inner layers of the retina. The threshold of electrical sensitivity (EC) of the retina was increased to 50 μA, and the electrical lability (EL) of the optic nerve was within the age norm of 40 Hz in both eyes.

The data of rheoencephalography (REG) indicated a slight deterioration in hemodynamics in the basin of vertebrobasilar (VBB) vessels - the volumetric blood flow of the vessels was 0.165 Ohm, the rheographic index was reduced to 0.7. Doppler ultrasonography revealed a moderate decrease in the married blood flow velocity (BFV) in the vertebral artery basin (PA) to 17.7 cm / s. The length of the anteroposterior axis (PZO) of the right eye is 23.05 mm, the left eye is 23.12 mm.

The patient was treated according to the proposed method using a magnetic laser therapeutic apparatus "RIKTA-04/4":

- acted with a scanning movement from top to bottom on the occipital-parietal region of the scalp from the coronary suture of the parietal bone to the occipital foramen along the midline of the aponeurosis and on the parietal region from the upper temporal line to the mastoid process on both sides of the Soul 1 emitter with pulsed laser IR power -radiation of 20 W, with a frequency of pulsed laser and incoherent infrared radiation of 1000 Hz, with pulsed red radiation and a constant magnetic field lasting 8 minutes, then

- acted on the neck area with the “Shower 1” emitter with a pulsed power of laser IR radiation of 20 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field scanning movement paravertebrally from top to down along the extensor muscles of the back from the occipital foramen to C ₆ -Th ₂ lasting 6 minutes, then

- acted on the carotid sinuses on both sides of the “Main” emitter with a pulse power of laser IR radiation of 8 W, with a frequency of pulsed laser and incoherent IR radiation of 50 Hz, with pulsed red radiation and a constant magnetic field, exposure time of 2 minutes, treatment made up 9 sessions.

After the treatment with this technique, the patient underwent asthenopic complaints, headaches became less frequent and shorter, without darkening in the eyes.

Visual acuity without correction increased to 0.8 in both eyes. Visual acuity with correction increased to 1.0 in both eyes, therefore, the work of all departments (peripheral and cortical) of the visual analyzer returned to normal.

The restoration of visual functions was combined with the normalization of electrophysiological parameters. The threshold (EC) of the retina decreased to 40 μA, (EL) of the optic nerve increased to normal - 45 Hz.

The positive dynamics of electrophysiological data correlated with hemodynamic parameters: on REG - the rheographic index reached the norm (1.1), the volumetric blood flow in the vessels (WBB) increased to 0.199 Ohms and dopplerographic studies revealed an increase in BFV in the vertebral arteries to the norm - 19.3 cm / from.

The proposed method was tested in the Regional Children's Hospital in 22 patients (44 clinical cases) with farsightedness of medium and high degree, with the presence of refractive amblyopia of varying degrees, aged 4 to 8 years. Early in patients and treatment, insignificant positive dynamics, unstable therapeutic results were observed against the background of the courses of stimulation of the visual analyzer (photostimulation of the retina, laser stimulation of the macular region, electrical stimulation of the optic nerve).

The table shows the results of treatment of patients with refractive amblyopia.

As can be seen from the table, the claimed method allows you to fully restore the work of the peripheral and cortical departments of the visual analyzer in 59.09% of cases and to conduct a sufficient and optimal correction of vertebrobasilar vascular insufficiency in 81.82% of cases.

Table. Number of clinical
cases Refractive amblyopia high average weak absent Before treatment 24 10 10 - After treatment (according to the method) - 8 10 26

Thus, the claimed method is safe, does not cause adverse and allergic reactions, allows to achieve high and stable treatment results, as well as reduce treatment time.

Claims (1)

A method of treating refractive amblyopia in children, including exposure to physical factors, characterized in that they carry out a combined contact action with pulsed laser infrared (IR) radiation with λ = 890 nm and pulsed power from 8 to 20 W, pulsed incoherent infrared radiation with λ = 860- 960 nm with an average power of 60 ± 30 mW, pulsed red radiation with λ = 600-700 nm with a frequency of 2 Hz and a constant magnetic field with magnetic induction of 35 ± 10 mT to the occipital-parietal region of the head, neck, carotid sinuses, while the back of the head the parietal-parietal region of the scalp from the coronary suture of the parietal bone to the occipital foramen along the midline of the aponeurosis and the parietal region from the superior temporal line to the mastoid process on both sides are affected by laser IR radiation with a pulse power of 20 W, with a frequency of pulsed laser and incoherent IR radiation 1000Hz scanning movement downwards exposure duration of 6-8 minutes, then act from the occipital hole up to ₆ C ₂ -Th paraverbralno downwards on the long extensor muscles spin infrared laser radiation with a pulsed power of 20 W, a frequency of pulsed laser and incoherent IR radiation of 50 Hz, a duration of exposure of 4-6 minutes, then they act on carotid sinuses on both sides with a pulsed power of laser IR radiation of 8 W, with a frequency of pulsed laser and incoherent IR radiation 50 Hz exposure for 2 minutes, the course of treatment is 8-12 sessions.