RU2634672C2 - Method for correction of cns functional state in oncological patients by physical nature signals - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: electroencephalogram (EEG) is preliminarily recorded. Effect through the headphones is performed by test signals, modulated within the EEG range. Modulation is performed using an asymmetric curve with a maximum, the ascending and descending branches of which are determined by exponential dependencies that differ in exponents. A control record and an EEG analysis are performed after exposure. Resonance effective range is the one within which an external sound effect was formed, which has changed the parameters of the initial EEG. The electrophysiological range or combination of ranges, the effects of which contribute to the EEG pattern normalization are determined. Then, an audio file is created that is frequency-modulated within the limits of the resonantly effective ranges defined for this patient. The patient listens to the sound file repeatedly until the EEG indices become stable.

EFFECT: method allows to reduce the drug load and improve the functional state of the cancer patient, which is achieved by selection of a sound resonantly effective frequency range that can normalize the functional state of the central nervous system.

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Description

The invention relates to medicine, namely to methods and means of physical control of the psychophysiological parameters of a biological object, and can be applied both in oncology and in other fields of medicine to correct the functional state of the central nervous system of a person by resonant exposure to modulated signals of a physical nature.

The current situation dictates the need to combine the already known specific methods of treating cancer with the introduction of new technologies, which allow to increase the adaptive capabilities of the patient’s body to preserve and extend their life. The key link in the structure of the functional state of the body is the functional state of the central nervous system (CNS). The adequacy of the functioning of the central nervous system is the resultant reaction of the body to any pathological and therapeutic effect, and allows one to judge both the magnitude of the lesion and the quality of specific and non-specific therapy. The emotional state, as a reflection of the functional state of mainly non-specific structures of the central nervous system, is directly involved in the rehabilitation process, slowing down or accelerating it. It affects the course of the disease, to overcome the effects of traumatic effects and postoperative complications. The emotional state in the delayed postoperative period, against the background and after the completion of chemoradiotherapy depends mainly on the physical well-being of the patient and is a leading factor in determining the completeness and speed of the patient returning to a socially useful activity interrupted by the disease. That is why, when developing comprehensive methods for the rehabilitation of cancer patients, a wide variety of methods for correcting the psychoemotional state of patients associated with it psychophysiological indicators were widely used. Due to the fact that pharmacological overload negatively affects the somatic state of patients undergoing specific treatment, when choosing a correction path, physiotherapeutic and psychotherapeutic methods generally accepted in medical practice are more widely used.

It was traditionally believed that oncology and physiotherapy represent incompatible areas of medicine, that the use of physical factors in the treatment and rehabilitation of cancer patients is absolutely contraindicated, including with the aim of correcting the psychoemotional state of the body and the functional state of non-specific regulatory structures of the central nervous system. However, in recent years, oncology has shown a growing interest in the use of physiotherapeutic methods of a predominantly local nature in order to eliminate the consequences of radical antitumor treatment. Data on the possible use of physical factors to correct the psychoemotional state and functional state of the central nervous system in cancer patients are extremely scarce.

The antistress and sedative effects observed in cancer patients using electromagnetic radiation (EMR) of the millimeter range or extremely high frequency (EHF) are associated with an increase in the inhibition of the central nervous system, a decrease in the synthesis and excretion of catecholamines (Temuryants N.A. et al., 1993 ; Durnov L.A. et al., 2002; Chuyan E.N. et al., 2003; Korytova L.I., Rezunkova O.P., 2010). The positive effect of low-intensity electromagnetic radiation of the millimeter range on the psychophysiological indicators of the functional state of the central nervous system, the body as a whole, as well as non-specific adaptive reactions is considered exclusively as a secondary effect.

A significant disadvantage of this method is the need to determine biologically active points and zones of exposure with the help of a trained specialist. To normalize the psycho-emotional state, the functional state of the central nervous system, mainly its subcortical non-specific departments, psychophysiological indicators and indicators of the main processes of higher nervous activity, a correction method called "electrosleep" is widespread and generally recognized in medical practice, including in oncology. The transcerebral effect is carried out by pulsed currents of low frequency: 5-20 Hz. The effect of exposure depends on the frequency of the pulse current and the initial state of the central nervous system and can be both exciting and inhibitory (Grushina T.I.).

In Russia, methods of treatment of cancer patients and correction of psychophysiological indicators of the functional state of the central nervous system by listening to recordings of sound patterns are widely used.

A.V. Gnezdilov developed a special method of sound therapy using bronze plates imitating bell ringing (Gnezdilov A.V., 2002). Thus, relaxation, sedation and analgesic effects were achieved.

Known patent RU No. 2180242 A61M 21/00 and A61K 35/78 "Method for the correction of psycho-emotional state", publ. 03/10/2002. According to this method, a patient brought into a state of relaxation is presented with certain musical compositions against the background of a developed range of aromas.

Also known patent US 5356368; year: 1994; State / Country: VA, “Method of Inducing Desired of Consciousness (Method of inducing desired states of consciousness). By presenting binaural sounds, it is possible to form a therapeutically appropriate brain activity and state of consciousness in a patient for a certain period of time (G. Tkachenko et al., 2010).

The disadvantage of the above methods of correcting the functional state is that the implementation of EHF therapy or exposure to current from the Electroson apparatus is possible only in a medical facility, which is unacceptable for bedridden patients who are in the rehabilitation period at home. The use of these sound therapy methods also requires the presence of medical personnel in order to avoid negative consequences.

But the main drawback of the above methods is that the action is performed by strictly periodic deterministic signals (sinusoidal, triangular or other form) on quasiperiodic processes in the body. And since all processes, functions, phenomena, etc., occurring in the body have a dual (probabilistic-determined) character, then, having a regulatory effect without taking into account the laws of the system’s development, possible “scenarios” of its evolution, it is equally possible to obtain how positive and negative effect.

As a prototype of the proposed method, a method of influencing an individual’s body with the aim of bioresonant correction of its functional state by modulated signals of a physical nature (patent RU No. 2358648) is adopted. A method of therapeutic treatment of a patient, characterized by the recording of electrophysiological signals of a biological object by hardware and subsequent exposure to it with a modulated signal, characterized in that first, using a computer electroencephalograph, an EEG is recorded in the patient’s resting state, as well as an EEG of changes to open-close the patient’s eyes, after which produces an analysis of the spectral power of the rhythms, the result of which is the determination of the background EEG pattern, then by an exhaustive search of test acoustic signals frequency modulated in the EEG rhythm ranges that affect the patient, they select such acoustic ranges or combinations of ranges that contribute to the normalization of the patient's EEG pattern, and after each exposure, a control recording and analysis of the EEG is carried out, then the patient is therapeutic exposure to it by detected acoustic signals or their ranges, which contributed to the normalization of the patient's EEG pattern.

The method generates an external sound effect in the form of generating musical sounds by parametrically changing their height, volume and duration as a criterion depending on the change in the discrete-current value of the characteristic generalized parameter of the frequency spectrum of the converted biosignal (EEG, ECG, etc.) of this patient and the subsequent therapeutic impact on the biological object with a signal modulated accordingly.

The objective of the invention is to develop a method for correcting the functional state of the central nervous system in the process of chemoradiotherapy and in the subsequent rehabilitation of cancer patients both in the hospital and at home.

The technical result of the proposed method for correcting the functional state of the central nervous system in cancer patients is an improvement in the psychoemotional state, accompanied by the normalization of frequency-amplitude and regional EEG indicators.

The specified technical result is achieved due to the fact that the claimed method of correcting the functional state of the central nervous system in cancer patients with signals of a physical nature includes a series of sequential procedures: preliminary recording of electroencephalographic signals of a biological object with hardware and then exposing it through headphones with test signals, which are a synthesized set of sounds - any randomly summed acoustic signals in the audible region, and this set sounds modulated within the generally accepted ranges of EEG: delta - 0.5-4 fps, theta - 4-8 fps, alpha - 8-13 fps, beta - 13-21 fps, with the obligatory control recording and analysis of the EEG after each exposure, and the modulation is carried out using an asymmetric curve with a maximum, the ascending and descending branches of which are determined by exponential relationships that differ in degree indicators; by changing the distribution of power over the EEG ranges, one judges the contribution of one or another level of the central nervous system: stem, diencephalic, hippocampal or cortical in the formation of structural and functional disorders of the general EEG pattern; resonantly effective is the range within which an external sound effect is formed that changes the parameters of the original EEG: spectral-amplitude composition, wave shapes, distribution over the surface of the brain; determine the electrophysiological range or a combination of ranges, the impact of which helps to normalize the EEG pattern (hereinafter referred to as resonantly-effective ranges), then create an audio file, frequency modulated within the resonantly-effective ranges defined for this patient, which is offered for listening for the purpose of therapeutic effect, restoring the EEG pattern, the functional state of the central nervous system and the psycho-emotional state of the patient.

The duration of a single corrective action by listening to a patient listening to a modulated musical fragment is preferably 5 minutes. The number of plays is preferably carried out from 2 to 6 times a day. The duration of the listening course is preferably done 21-42 days, until the stable normalization of the functional state of the central nervous system and, as a result, the frequency-amplitude indicators of the EEG are recorded.

The invention is illustrated by EEG processing data.

In FIG. 1 shows the total power of the EEG spectrum (μV ² ) A-on A.V., 58 years old.

Diagnosis: prostate cancer.

A - 05/23/07, before the start of radiation therapy and course non-linear sound therapy;

B - 06/27/07, against the background of radiation therapy and after the end of the nonlinear sound emitter.

EEG ranges: D-delta, T-theta, A-alpha, VN-beta low-frequency, BV-beta high-frequency. The distribution of the electrodes along the convexital surface according to the 10 × 20 pattern.

In FIG. 2 shows the full power of the EEG spectrum (μV ² ) A.A. B-tsa, 59 years old.

Diagnosis: prostate cancer.

A - 04/27/07, before the start of radiation therapy and course non-linear sound therapy;

B - 05/23/07, against the background of radiation therapy and after the end of the nonlinear sound emitter.

EEG ranges: D-delta, T-theta, A-alpha, VN-beta low-frequency, BV-beta high-frequency. The distribution of the electrodes along the convexital surface according to the 10 × 20 pattern.

In FIG. 3 shows the total power of the EEG spectrum (μV ² ) I-howl T.N., 54 years old.

Diagnosis: uterine cancer.

A - December 8, 06, after surgical and surgical treatment, before chemotherapy and course non-linear sound therapy;

B - 06/27/07, against the background of chemotherapy and after the end of the non-linear sound recorder. EEG ranges: D-delta, T-theta, A-alpha, VN-beta low-frequency, BV-beta high-frequency. The distribution of the electrodes along the convexital surface according to the 10 × 20 pattern.

The implementation of the invention

As a result of frequency-amplitude analysis of an extensive clinical and experimental material, the obtained EEG samples in accordance with the classification (Svyatogor I.A., Mokhovikova I.A., Bekshaev S.S., Nozdrachev A.D. Evaluation of the neurophysiological mechanisms of maladaptive disorders according to EEG patterns Journal of VND. 2005, v. 55, No. 2, P. 178-188.) Were divided into types, which are separate dynamic systems. Further, the behavior of each dynamic system was investigated, bifurcation diagrams, the attraction regions of various attractors were constructed, and the values of the controlling fractal parameters were determined, which made it possible to bring the dynamic system into unstable equilibrium mode. Thus, a bank of control signals was created, which is used when generating an external sound effect in the form of generating musical sounds by parametrically changing their height, volume and duration in a criterion depending on the change in the discrete current value of the characteristic generalized parameter of the frequency spectrum of the converted bio-signal (EEG) upon subsequent exposure to the biological object this modulated signal. Depending on the initial level of the functional state and the type of disturbed EEG pattern, that is, the level of its structural and functional mismatch, the selected characteristics of the rhythmic signals of the biological object are selected (individual ranges: delta = 0.5 ÷ 4 k / s, theta = 4 ÷ 8 k / s, alpha = 8 ÷ 13 f / s, beta = 13 ÷ 21 f / s), capable of resonantly influencing the recorded oscillatory processes and, in accordance with a certain law, phase and / or amplitude and / or frequency modulation is carried out signal of a physical nature (sound file) followed by they influence this signal on a biological object with a therapeutic purpose - correction of the functional state of the central nervous system.

EEG ranges: delta - 0.5 ÷ 4 f / s, theta - 4 ÷ 8 f / s, alpha - 8 ÷ 13 f / s, beta - 13 ÷ 21 f / s - this is a generally accepted international division of the entire EEG spectrum . In ontogenesis, central nervous system maturation is accompanied by a gradual formation of the EEG spectral composition from delta dominance in newborns to alpha dominance with full brain maturation, usually by 21 g. In adults, the shifts of the dominant rhythm shift to slower (delta and theta) or frequent (high-frequency alpha) and beta) judge the level of functional state and the predominance of inhibitory (in the first case) or activation (in the second) processes. In addition, by changing the distribution of power over the ranges, one judges the contribution of one or another level of the central nervous system (stem, diencephalic, hippocampal or cortical) in the formation of structural and functional disorders of the general EEG pattern. In other words, in the EEG ranges, the basic principles of the brain’s functioning are reflected, which make it possible to assess the level of its functioning, the synchronization in the work of certain parts of the brain and the degree of disturbances introduced by external or internal deoganizing processes. Resonantly effective is the range within which an external sound effect is formed (modulated) that changes the parameters of the initial EEG: spectral-amplitude composition, wave shapes, distribution over the surface of the brain (convex surface).

Then, an audio file is created, frequency modulated within the resonantly effective ranges defined for the patient, which is offered for listening with the purpose of therapeutic effect, restoring the EEG pattern, the functional state of the central nervous system and the emotional state of the patient.

Test signals are a synthesized set of sounds, that is, any arbitrarily summed acoustic signals in the audible region. The bottom line is the modulation method. It is carried out in a certain way, which is based on an asymmetric curve with a maximum. For example, we take the low-frequency range - 0.5-4.0 fluctuations per second, called the EEG delta range by the world community of electrophysiologists. On one branch, ascending, the frequency increases (from 0.5 to 4.0 fps), the amplitude (individual indicators), the interval between stimuli, and the girlfriend (descending), on the contrary, the indicators decrease. The ascending and descending branches of this curve are determined by exponential relationships that differ in exponents. Moreover, and this is fundamentally important, the exponents of the two exponential dependencies should differ by about 1.618 times (closer to the "golden ratio"). This is a code characteristic of the course of basic biological processes, including those initiating the activity of the regulatory structures of the central nervous system, and the curve itself underlies the readiness of biological objects for adaptation (adaptation) in accordance with the requirements of continuously changing environmental conditions.

The duration of a single corrective action (listening to a modulated musical fragment) is 5 minutes. Depending on the initial level of the functional state, the number of listening ranges from 2 to 6 times a day. The duration of the course is 21-42 days, until a stable normalization of the functional state of the central nervous system and, as a consequence, frequency-amplitude EEG indicators.

In FIG. 1 shows the EEG changes of patient A.A. A. V., 58 years old, suffering from prostate cancer. 1A - before the course exposure of nonlinear sound therapy - there is a sharp increase in the total power in the delta and beta range. In the delta range, an increase in the total power in this patient, like in the majority of the examined patients, is provided not only by increasing the amplitude and power of the bioelectrical activity of the brain itself, but also due to the tension of the cortical vessels, which is an indirect indicator of the presence of autonomic dysfunctions. An increase in the power of beta activity in the frontal and frontotemporal regions (F1, 2, 3, 4; T3, 4) and a decrease in power in the alpha range, combined with a violation of regional differences in bioelectric activity along the convex surface, is regarded as an increase in anxiety, which confirmed by the data of a subjective assessment of their condition and analysis of patient complaints: sleep disturbance, irritability, decreased mood, decreased overall self-esteem.

An analysis of the response to test signals showed the EEG response in the form of a short-term pattern change in the direction of power decrease in the EEG beta range and a slight increase in the alpha power to the test signal modulated by the theta component after 1 min and 34 s to the test signal. modulated alpha component after 2 min 47 s, re-modulated theta component after 56 s. For listening to this patient, a sound file (sounds of nature) was program-modulated: sequentially theta component for 1 min, alpha - 3 min, in theta - 1 min.

After the course sound therapy, a significant improvement in the general functional and psychoemotional state of the patients was revealed: normalization of sleep, cessation of complaints of irritability and decreased mood, increased activity and increased overall self-esteem. Positive changes in the psychoemotional state were accompanied by significant changes in the EEG parameters (1B). The normalization of the EEG pattern was manifested in the restoration of the dominance of alpha activity with increasing power in the alpha range and a decrease in power in the range of both low-frequency (delta and theta) and high-frequency (beta) vibrations. In addition to the normalization of the frequency-amplitude changes, a restoration of regional differences was revealed: a decrease in the amplitude and index of alpha waves from the occipital region to the frontal region, which was reflected in the distribution of the total power in the alpha range.

In FIG. 2 shows the changes in the EEG in the patient B-tsa A.A., 59 years old, the diagnosis of prostate cancer. As seen in FIG. 2A, against the background of a general decrease in the power of brain bioelectric activity in all ranges (“flat” EEG), an excess of power in the delta range with an emphasis on the left is predominantly due to recorded vascular beats. As in the previous patient, B-ts A.A. tension of cortical vessels was noted. The presence of a “flat EEG” in combination with an increase in the duration of the reaction of the aftereffect of the “open-close” eye test and an expansion of the assimilation rate of the photostimulation rhythm indicates irritation of the subcortical (reticulo-diencephalic) regulatory non-specific sections of the central nervous system. This patient was characterized by a decrease in working capacity, increased fatigue, irritability, and sleep disturbance.

An analysis of the reaction to test signals showed the EEG response in the form of a short-term pattern change towards the appearance of separate groups of alpha waves on a test signal modulated by the alpha component after 3 min and 37 s, on a test signal modulated by the theta component after 1 min 54 s . For listening to this patient, a sound file (sounds of nature) was program-modulated: sequentially the alpha component for 3 minutes, theta 2 minutes.

It should be noted that there were no significant positive changes in subjective status during the first observation period (21 days of nonlinear sound therapy), although all scores for health felt a downward trend. This trend was reflected in a 11.3% decrease in the average score for complaints submitted by the SAN test. More significant were the data obtained 42 days after the start of the course non-linear sound therapy. There was no complaint about sleep disorder, the patient noted a decrease in the severity of fatigue, irritability, and a partial restoration of working capacity. During this period, the analysis showed the lowest value of the average number of complaints (by 27%) compared to the background. As seen in FIG. 2B, after a course of nonlinear sound therapy (42 days), against the background of a dominant increase in power in the alpha range, a relative power drop in the delta and beta ranges was observed with a constant power in the theta range. The restoration of the dominance of alpha activity indicates an increase in the power or number of subcortical sources initiating its manifestation.

Patient I.I. T.N., 54 years old, cancer of the uterine body, whose EEG processing data are presented in FIG. 3, examined before and during chemotherapy. As you know, chemotherapy negatively affects the general somatic state of patients in connection with severe temporary intoxication. However, even in this situation, the nonlinear sound therapy had a positive effect on the psychophysiological state of the patient. Figure 3A presents the result of the frequency-amplitude processing of the EEG against the background of postoperative stress, but before the start of chemo and sound therapy. As can be seen from the figure, a power drop is recorded in all EEG ranges with a pronounced predominance of power in the beta 2 (BN) range: 21 ÷ 34 fps. A similar EEG pattern is characteristic of the functional states of the central nervous system, in which irritation of both the cortex and subcortical (reticular formation of the brain stem) nonspecific formations is noted. During this period, the patient had pronounced complaints of sleep disturbance, headache, irritability, heart pain, general weakness, and other complaints of an asthenovegetative nature.

An analysis of the response to test signals showed an EEG response in the form of a short-term pattern change towards a slight increase in power and the alpha range to the test signal modulated by the delta component after 1 min and 7 s, to the test signal modulated by the alpha component after 1 min 44 s, modulated theta component 1 min 26 s. For listening to this patient, a sound file (sounds of nature) was created programmatically modulated: sequentially delta component for 1 min, alpha - 2 min, theta - 2 min. Regardless of the course chemotherapy, regular non-linear sound exposure had a positive effect on the patient’s psychosomatic state and EEG parameters, reflecting the functional state of the nonspecific structures of the central nervous system (ST): power drop in the beta range and power increase in the alpha range against the background of regional differences . These changes in the EEG parameters were accompanied by the restoration of the duration and continuity of sleep without the use of sleeping pills, a decrease in the accentuation of headaches and pains in the heart region, a decrease in irritability and general weakness and, as a result, the restoration of the ability to perform housework, which was noted by the patient as a positive result of nonlinear sound therapy .

Based on the analysis of literature data, our own physical and physiological studies, and mathematical modeling of transients in nonlinear systems, the authors were able to formulate principles and obtain a mathematical expression of the law of rhythm modulation. The graph of this law is an asymmetric curve with a maximum, the ascending and descending branches of which are determined by exponential relationships that differ in exponents. A glucose tolerance test (GTT) was performed on six patients under the age of 25 years who were not suffering from diabetes mellitus. The results are shown in FIG. four.

… («золотая пропорция») раз.The experimental data with a high degree of accuracy are approximated by a theoretical dependence, provided that the exponents of the two exponentials differ in

... ("golden ratio") times.

The procedure for selecting an individual program consists of the steps:

1. The background EEG is recorded according to a standard technique.

2. The electroencephalogram is analyzed, its pattern (image) and the nature of the necessary effects are determined.

3. Test sound signals modulated in various ranges of brain bioelectric activity are fed through the headphones and the nature of the change in the EEG pattern is analyzed. The duration of exposure in each of the ranges does not exceed 5 minutes. The procedure is repeated until normalization of the EEG pattern is achieved.

The sequence and / or set of test signals that led to the achievement of the optimal result is an individual program for this particular patient.

The total duration of the selection of an individual program, as a rule, does not exceed one hour.

To consolidate the result, an individual program is superimposed on a musical fragment that the patient can listen to on his own. As a rule, the patient is recommended to listen to an individual musical fragment at least 21 days and at least 4 times a day, after which there is a steady normalization of the patient's condition.

EEG as a method of functional diagnostics is used not only in neurology. Using EEG, the level of the functional state of the central nervous system, the adaptive capabilities of the body, the direction of correction, regardless of the diagnosis, are assessed. Changes in the EEG pattern in cancer patients do not differ from the changes observed in patients with neurological, therapeutic, endocrinological, etc. clinics.

According to neurologists working in oncology hospitals, most cancer patients are diagnosed with grade I-II encephalopathy. In addition, prolonged antitumor treatment has a severe effect on the state of the nervous system. In cancer patients, the presence of depression is almost the norm, and prolonged severe anti-cancer treatment exacerbates it, leading to severe asthenia, vegeto-dystonic phenomena, and dysfunction of non-specific sections of the central nervous system. In clinical electroencephalography, the procedure for recording an electroencephalogram, functional loads: opening-closing of the eyes, rhythmic photo and phonostimulation, hyperventilation, and even the analysis procedure are standardized. For example, sequential rhythmic supply of stimuli 1 s for 5-10 s, 2 s for 5-10 s ... 10 s for 5-10 s and so on up to 25-30 b s for 5-10 s .

The task of the doctor of functional diagnostics based on visual analysis of the recording, focusing on determining the dominant rhythm, waveform, regional differences, spectral composition, frequency-amplitude indicators, responses to functional loads ..., assess the level of the functional state of the central nervous system, the presence of diffuse or local disturbances in the EEG pattern and on the basis of this, determine the direction of the shift of the activation-deactivation balance, the degree of dysfunction of nonspecific CNS formations, the features of their disorganization interactions and the level of location of nonspecific entities that determine the organization of the registered pattern.

If necessary, the doctor of functional diagnostics can confirm his conclusion with graphs, diagrams, rhythmograms obtained as a result of automatic analysis of a significant section of the EEG. Based on the analysis of complaints, personal examination, and the conclusion received, the attending physician determines the direction of pharmacological, physiotherapeutic, if necessary, inpatient treatment. Due to the fact that the studies were carried out according to the standard scheme, it was considered possible not to include unnecessary, in our opinion, details in the "Description".

In cancer patients, conducting rhythmic stimulation as part of the diagnosis is short-term in nature and does not cause objection. However, as it was previously, when correcting the functional state of cancer patients, the use of rhythmic signals is not permissible, since it can adversely affect the functional state of the central nervous system, psychoemotional state, and, as a consequence, the effectiveness of specific treatment.

The essence of the present invention is that the effect is non-linear. Phonostimulation was carried out not by sequential enumeration of single rhythmic regularly organized stimuli, but within the framework of individual EEG ranges. Each range is modulated in accordance with the claimed claims. If the effect is carried out within the framework of, for example, a modulated theta range addressed to the regulatory structures of the limbic-diencephalic complex and causes changes in the spectral composition and EEG pattern in the direction of approaching the conventional average statistical norm, then this range is called "resonantly effective in the context of the description of the present invention ". It is often impossible to induce directional changes in the EEG pattern when one of the modulated EEG ranges is exposed. Therefore, it is necessary to continue the search for a combination of ranges until conditions are created - the combined stimulation of certain regulatory nonspecific formations of different levels, leading to the necessary and sufficient change in the pattern. In other words, an action program is created with the aim of directionally changing the pattern (see Figs. 1, 2, 3).

In developing this method, the choice fell on the sound effect as the most simply feasible. A musical fragment or a synthesized set of sounds undergoes nonlinear frequency modulation in the EEG ranges (delta, theta, alpha, beta-1 and beta-2) individually, all taken together and in various combinations among themselves. The time intervals during which the rhythm varies in frequency within its range (for example, in the range of the alpha rhythm from 8 to 13 Hz) are variable. Their duration is determined by the same law as frequency modulation, that is, in accordance with the mathematical expression found by the authors of the law of nonlinear frequency modulation of biological rhythms.

Electroencephalographic studies have shown that for each patient there is an individual resonantly effective range or a combination of ranges, the presentation of which allows you to most quickly and purposefully modify the EEG pattern disturbed as a result of the disease. As the result of assimilation of the proposed nonlinear frequency modulation algorithm, a change in the bioelectrical activity of the brain towards normalization is noted: an increase in the power of alpha activity with a simultaneous decrease in theta and (or) beta components. The method is focused on the correction of the direct central link of self-regulation - the central nervous system (CNS). Directional regulation of the central nervous system activity parameters helps to restore the coordinated interaction of regulatory processes of different levels through the assimilation of a dynamic algorithm of the relationship of biorhythms in different scale ranges, which is reflected in the normalization of both EEG parameters and other vital signs of the body: blood pressure, electrocardiogram, blood formula. Due to the fact that a single presentation of a bioresonant acoustic effect causes unstable changes in the corrected parameters of the functional state of the body, multiple prolonged effects are necessary to consolidate the algorithm for harmonizing biorhythms.

Claims (4)

1. A method for correcting the functional state of the central nervous system in cancer patients with signals of a physical nature includes a series of sequential procedures: preliminary recording of electroencephalographic signals of a biological object with hardware and then exposing it through headphones with test signals, which are a synthesized set of sounds — any randomly summed acoustic signals in the audible region, moreover, this set of sounds is modulated within the generally accepted ranges of EEG: delta - 0.5-4 fps, theta - 4-8 fps, alpha - 8-13 fps, beta - 13-21 fps, with the obligatory control recording and analysis of the EEG after each exposure, with modulation carried out using an asymmetric curve with a maximum, the ascending and descending branches of which are determined by exponential dependencies, differing exponents; by changing the distribution of power over the EEG ranges, one judges the contribution of one or another level of the central nervous system: stem, diencephalic, hippocampal or cortical in the formation of structural and functional disorders of the general EEG pattern; resonantly effective is the range within which an external sound effect is formed that changes the parameters of the original EEG: spectral-amplitude composition of the waves, distribution over the surface of the brain; determine the electrophysiological range or a combination of ranges, the impact of which helps to normalize the EEG pattern (hereinafter referred to as resonantly-effective ranges), then create an audio file, frequency modulated within the resonantly-effective ranges defined for this patient, which is offered for listening for the purpose of therapeutic effect, restoring the EEG pattern, the functional state of the central nervous system and the psycho-emotional state of the patient. 2. The method according to p. 1, characterized in that the duration of a single corrective action by listening to a patient modulated musical fragment is 5 minutes 3. The method according to p. 2, characterized in that the number of plays is carried out from 2 to 6 times a day. 4. The method according to p. 1 or 2, or 3, characterized in that the duration of the listening course is 21-42 days until the stable normalization of the functional state of the central nervous system and, as a result, frequency-amplitude EEG indicators are recorded.

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