RU2281793C2 - Butukhanov's method of treatment of children's mental defficiency - Google Patents

Abstract

FIELD: medicine; neurology; psychiatry.

SUBSTANCE: carotid and spine arteries are subsequently subject from right and left during 5 minutes to amplitude-frequency-modulated low-intensity IR-radiation laser at depth of modulation to 30%, with modulation frequency of 3 Hz, intensity of radiation up to 50 J and 960 nanometer wavelength of. Then areas of projections of forehead and cervical parts of brain, projections of hippocampus tonsils, projection of thalamus-hypothalamus formation are then subject to amplitude-frequency-modulated low-intensity magnetic field influence and microwaves with modulation frequency up to 3 Hz, depth of modulation up to 40%, magnetic induction 2mT, power of microwaves up to 1mW/cm² from right and from left during 3 minutes. Then vision analyzer is subject to influence of amplitude-frequency-modulated low-intensity IR-radiation waves with modulation frequency up to 3 Hz, depth of modulation up to 50%, 850 nanometer's wavelength and with power up to mW/cm² during 30 minutes. Course of treatment consists of 15 procedures.

EFFECT: improved psychical factors; accelerated maturing of nerve cells; stronger processes of regeneration of neuron circuit, metabolic and energy processes.

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Description

The invention relates to medicine, namely to the field of neurology, psychiatry, and can be used to treat mental retardation in children, namely, with an uncomplicated form of brain development, forms with impaired cortical neurodynamics, with mental maldevelopment with a lag in the development of the frontal lobes of the brain brain.

A known method of applying electric current to the brain in the treatment of encephalopathy by conducting iontophoresis of drugs aimed at eliminating vascular disorders, with the location of the anode on the frontal region, and the cathode on the occipital region of the head. The impact is carried out by a current of 1-2 mA, lasting 15-20 minutes (1).

A method of low-frequency pulsed magnetic therapy by exposing biological objects to a moving burst of pulsed fields with a magnetic induction value of 40-60 mT (2).

The closest is a method of treating mental retardation, including exposure to biologically active points with helium-neon radiation of 10 mW / cm2, corporal points of 10 s and auricular points of 8 s. Moreover, before treatment, an analysis of the structure of intellectual processes was carried out, the following areas were evaluated: communication, emotionally volitional, speech, arbitrary regulation of behavior; mental development coefficient (JQ); electroencephalogram indicators (3).

However, the known method of treating mental retardation is not effective enough due to the lack of effects on the brain structures that are directly responsible for the mental abilities of the child, the lack of effects on cortical neurodynamics, there is no direct effect on cerebral blood flow, energy and metabolic processes.

Based on the current level of technology for the treatment of mental retardation in children, the task was set: to increase the effectiveness of treatment by direct exposure to the frontal and occipital lobes of the brain with magnetic and microwave waves, the hippocampus, thalamus, infrared waves on the visual analyzer, and an infrared laser on the carotid and vertebral arteries with the aim of accelerating the maturation of nerve cells, enhancing the processes of regeneration of neural networks, enhancing metabolic and energy processes, cerebral blood flow, restoring The occurrence of disturbed cortical neurodynamic processes.

The problem is solved as follows.

A method of treating mental retardation is carried out by exposure to laser radiation. New in solving this problem is that they additionally conduct low-intensity bioresonance exposure to amplitude-frequency-modulated waves with a frequency of up to 3 Hz: monochromatic infrared waves, with a modulation depth of up to 30 percent, an energy of up to 50 J, a wavelength of 960 nm, and magnetic waves with modulation depth of up to 30 percent, the inductance of up to 2 mT, microwave wave with a modulation depth of up to 40 percent, up to 1 mW / cm ^2, infrared waves with a modulation depth of up to 50 percent, a wavelength of up to 850 n With capacity of up to 2 mW / cm ^2, while sequentially exposed by an infrared laser on the carotid and vertebral arteries on the right and left by 5 minutes magnetic and microwave waves on the projection of the frontal and occipital lobes of the brain, the projections tonsil hippocampus and thalamo-hypothalamic formation right and left for 3 minutes and infrared waves on the visual analyzer for 30 minutes, the course of treatment is 15 sessions.

Explain the salient features of the proposed method.

Bioresonance exposure to magnetic, microwave, infrared and laser radiation by amplitude-frequency-modulated waves with a frequency of up to 3 Hz and a modulation depth of up to 40 percent allows you to act in resonance with spontaneous rhythmic movements of the brain tissue. The frequency of this rhythm ranges from 0.2 to 3 Hz. Spontaneous rhythmic movements of the brain tissue provide an increased rate of blood passage through the organ, gas exchange and metabolism between blood and tissue, metabolic processes inside the cell and fluid movement in the intercellular spaces (4). Therefore, acting with electromagnetic and electric waves with amplitude-frequency modulation in the range from 0.2 to 3 Hz, i.e. In resonance with micromotion of brain tissue, we enhance the positive effects associated with blood flow, metabolism and circulation of intercellular fluid, with an improvement in venous outflow from the pool of veins of the base of the brain, which is an essential condition for maturation of nerve cells, regeneration of nerve processes, and establishment of contacts (5 )

Bioresonance exposure to low-intensity magnetic and microwave waves on the projection area of the frontal lobes, hippocampus, thalamus and hypothalamus allows you to influence brain structures responsible for memory, behavior, emotional, mental and hormonal reactions (6).

Exposure to magnetic waves is accompanied by a pronounced reaction from the nervous system. The most sensitive are the thalamus and hypothalamus. On the part of the hypothalamus under the influence of a magnetic field, an increase in the synthesis and excretion of a neurosecret from its nuclei is noted (7). Under the influence of a low-intensity magnetic field, the tone of cerebral vessels decreases, and the blood supply to the brain improves (8).

The impact on the body of microwave waves with a frequency of 2560 MHz of ultra-low power exerts a strong nonspecific systemic therapeutic effect on the body on the brain, normalizing its morphofunctional state as a whole. One of the key results is the conclusion about the molecular structure of the water component of the brain, as a carrier of wave processes in the microwave range, realizing the communication-correcting function in the brain homeostasis system (9).

The impact of infrared infrared waves with a duration of 650-800 nm on the visual analyzer allows you to restore cortical neurodynamics due to the global restructuring of the level of brain activity associated with the activity of regulatory mechanisms that support the coordination of neurophysiological processes and higher mental functions of the brain (10).

Influence of infrared laser radiation with a wavelength of 960 nm on the carotid and vertebral arteries can improve hemomicrocirculation, increase blood supply in the stimulated vascular pool, improve venous outflow, reduce the increased tone of the cerebral arteries, improve cortical hemodynamics with possible stimulation of biosynthetic cells in the central nervous system (3) .

Exposure to a magnetic field with an induction of up to 2 mT, a microwave field with a power of up to 1 mW / cm ² , an infrared field with a power of 2 mW / cm ² , a laser field with an energy of up to 50 J are low-intensity and allows you to act on the above areas at the information level and completely exclude harmful effect and remove contraindications for use (9).

Conducting 15 sessions is optimal to achieve a positive treatment result.

Patent studies on subclasses A 61 N 1/32, 5/00, 5/02, 5/06 and analysis of scientific and medical information reflecting the current level of treatment for mental retardation did not reveal technologies identical to the proposed one. Thus, the proposed method for the treatment of mental retardation is new.

The interconnection and interaction of the essential methods of the proposed method ensure the achievement of a new technological medical result in solving the problem, namely due to a direct effect on the frontal and occipital lobes of the brain, hippocampus, thalamus, hypothalamus, carotid and vertebral arteries in order to accelerate the maturation of nerve cells, enhance processes of regeneration of neural networks, metabolic and energy processes, cerebral blood flow, restoration of disturbed cortical neurodynamic processes ssov can significantly improve the efficacy of the treatment. Thus, the proposed technical solution has an inventive step.

The proposed method for the treatment of mental retardation is industrially applicable in the field of practical health care, as it can be reproduced repeatedly, without requiring exceptional funds for implementation.

The essence of the proposed method for the treatment of mental retardation in children is as follows.

Before, at the end of treatment and after 6 months, a patho- and neuropsychological study of children was carried out. The criterion for the effectiveness of the proposed treatment was the dynamics of the following indicators: the degree of brain maturation and the formation of cortical neurodynamics (according to EEG), neurological status, level of communication (according to psychological tests), voluntary regulation of behavior, speech activity, degree of maturation of higher mental functions in the patient (according to JQ test data). Then they are exposed to an amplitude-frequency-modulated low-intensity infrared laser with a modulation frequency of up to 3 Hz, a modulation depth of up to 30%, an intensity of up to 50 J, a wavelength of 960 nm sequentially on the carotid and vertebral arteries on the right and left. Next, place microwave and magnetic emitters with a working surface of 3 × 3 cm, sequentially on the projection area of the frontal and occipital lobes of the brain, the projection of the amygdala of the hippocampus, the projection of the thalamo-hypothalamic formation and are affected by amplitude-frequency-modulated, low-intensity magnetic and microwave waves with a modulation frequency up to 3 Hz, modulation depth up to 40%, with magnetic induction up to 2 mT and microwave power up to 1 mW / cm ² for 3 minutes ^{on the} right and left. Then they are affected by amplitude-frequency-modulated low-intensity infrared waves with a modulation frequency of up to 3 Hz, a modulation depth of up to 50%, a wavelength of 600-850 nm, and a power of up to 2 mW / cm ² on the visual analyzer for 30 minutes. Spend 15 treatment sessions.

The proposed method for the treatment of mental retardation was used in 19 sick children with weak processes of excitation and inhibition and 7 patients with insufficient activity of the frontal lobes of the brain. As a result of the treatment, in the first group of patients, a non-motivated change in mood decreased, literacy learning indicators improved, concentration in the second group of patients increased, stereotypic movements and mental instability decreased. Objectively, the common features for both groups were: the improvement of indicators reflecting the maturation of the brain, cortical neurodynamics and cerebral circulation, the rate of formation of higher mental functions increased, the signs of depressive states decreased.

The essence of the proposed method is illustrated by a clinical example.

Example. Patient M. 8 years. Diagnosis: Moderate lag in brain maturation and the development of higher mental functions with impaired cortical neurodynamics by the type of weakness of the processes of excitation and inhibition.

Complaints: frequent changes in lethargy and increased excitability, unmotivated mood swings. In learning, there are great difficulties in mastering elementary literacy. The skill of independent writing is formed with difficulty, omissions and permutations are constantly encountered. When solving problems, it easily enough performs the action itself, but poorly holds the condition in memory. Reduced ability to solve tasks in an original way.

Objectively

Physiological testing

According to the electroencephalogram, the following were assessed: the lag in the formation of age-related electrogenesis (brain maturation), signs of dysfunction of the subcortical brain structures, strength and balance of the processes of excitation and inhibition, activity of the reticular formation of thalamic structures, plasticity of the nervous system (11).

Rhythms: delta-8%, theta-55%, alpha 1-17%, alpha 2-10%, beta 1-8%, beta 2-2%.

Probability matrix of the transition of brain rhythms

The core, consisting of the probability (total probability) of transitions of theta-alpha 1 rhythms, reflecting the low plasticity of the nervous system, was p = 38, the core, consisting of the probability of transitions alpha 2 - beta 1, reflecting the high plasticity of the nervous system, was p = 10.

The mental development coefficient JQ (maturation of higher mental functions) is 54.

According to the REG data, in the study of the carotid artery basin,

- a significant increase in peripheral resistance of the middle arteries,

- difficulty venous outflow,

- decrease in the rheographic index from the norm: on the left by 23%, on the right by 14%.

According to the REG when examining the pool of the vertebral arteries:

- detected: a significant increase in peripheral resistance of arterioles and venules,

- difficulty in venous outflow, rheographic index is reduced: on the left by 21%, on the right by 11%.

After evaluating the functional studies, bioresonance physiotherapy was performed.

Initially, they were exposed to an amplitude-frequency-modulated low-intensity infrared laser with a modulation frequency of up to 3 Hz, a modulation depth of up to 30%, with an energy of up to 50 J, a wavelength of 960 nm, sequentially on the carotid and vertebral arteries for 5 minutes. Then, microwave and magnetic emitters with a working surface of 3 × 3 cm were placed sequentially on the projection area of the frontal and occipital lobes of the brain, the projection of the amygdala of the hippocampus, the projection of the thalamo-hypothalamic formation and were exposed to amplitude-frequency-modulated low-intensity magnetic and microwave waves with a modulation frequency of up to 3 Hz, modulation depth up to 40%, with magnetic induction up to 2 mT and microwave power up to 1 mW / cm ² for 3 minutes ^{on the} right and left. Then they were affected by amplitude-frequency-modulated low-intensity infrared waves with a modulation frequency of up to 3 Hz, a modulation depth of up to 50%, a wavelength of 600-850 nm, and a power of up to 2 mW / cm ² on the visual analyzer for 30 minutes. 15 treatment sessions were performed.

As a result of the treatment, normalization of the general functional state, improvement of mental performance, voluntary attention, improvement of fine motor skills, improvement of the grammatical structure of writing, general activation of speech development were noted, mood changes decreased.

According to the EEG:

Rhythms: delta-4%, theta-29%, alpha 1-21%, alpha 2-18%, beta 1-18%, beta 2-10%.

Probability matrix of transitions of brain rhythms.

The core of the probability of transitions of theta-alpha 1 rhythms was p = 29, the core of the probability of transitions of alpha 2-beta 1 rhythms was p = 20.

The mental development coefficient JQ (maturation of higher mental functions) is 62.

According to REG in the carotid artery basin:

- a slight increase in peripheral resistance,

- the venous outflow returned to normal, the rheographic index was: 8% on the left, 7% on the right.

According to REG in the pool of vertebral arteries:

- peripheral resistance of arterioles and venules is normal,

- venous outflow is normal,

- rheographic index: left 4%, right 13%.

Thus, the patient’s mental development indicators improved significantly, the lag in the formation of age-related electrogenesis (brain maturation) decreased, signs of dysfunction of the subcortical brain structures decreased, indicators reflecting the strength and balance of the processes of excitation and inhibition improved, the activity of the reticular formation of thalamic structures increased, plasticity increased nervous system, the coefficient of mental development increased, cerebral blood flow improved.

Thus, the proposed "Method for the treatment of mental retardation in children" in comparison with other known technologies provides an increase in the effectiveness of the treatment of mental retardation in children due to a direct effect on the frontal and occipital lobes of the brain, hippocampus, thalamus, carotid and vertebral arteries in order to improve mental indicators, accelerating the maturation of nerve cells, strengthening the processes of regeneration of neural networks, metabolic and energy processes, cerebral blood flow, restoration of impaired cortical neurodynamic processes.

Information sources

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Claims (1)

A method of treating mental retardation in children, including exposure to laser radiation, characterized in that they sequentially apply an amplitude-frequency modulated low-intensity infrared laser to the carotid and vertebral arteries on the right and left with a modulation frequency of up to 3 Hz, a modulation depth of up to 30%, an intensity of up to 50 J, with a wavelength of 960 nm on the right and left for 5 minutes, then they are affected by the amplitude-frequency-modulated low-intensity magnetic field and microwaves on the projection area of the frontal and occipital lobes of brain projection tonsil hippocampal projections thalamo-hypothalamic formation with a modulation frequency up to 3 Hz, modulation depth of up to 40%, the magnetic flux density 2 mT, microwave power of 1 mW / cm ² on the right and left on for 3 minutes, then affect amplitude-frequency -modulated low-intensity infrared waves to a visual analyzer with a modulation frequency of up to 3 Hz, a modulation depth of up to 50%, a wavelength of 850 nm, a power of 2 mW / cm ² for 30 minutes, a course of treatment of 15 sessions.