RU2127135C1 - Method for correction of functional conditions - Google Patents

Abstract

FIELD: medicine, in particular, physical therapy treatment. SUBSTANCE: method involves stimulation using color pulses, which frequency and intensity correspond to EEG waves, in synchronism rhythms of heart pulsation and breathing. Synchronization pulse which corresponds to current pulse value is displayed on screen as red rectangle between blinking color squares. Said method involves preliminary detection of patient's vegetative profile, and running system in relaxation mode in pronounced and distinctly pronounced predominant sympathetic nervous system. This mode involves generation of sequence of two blinking green squares of 4.0 Hz carrier frequency with period of 0.25 sec, and their interruption each 5 sec by sequence of two blinking blue rectangles of 8.0 Hz carrier frequency with period of 0.125 sec. For feebly pronounced sympathetic system or pronounced parasympathetic system, stimulation is achieved in harmonization mode with stimulation elements. This mode involves generation of sequence of three violet pulses of 17.0 Hz frequency, one green pulse of 4.0 Hz frequency and five blue pulses of 12.5 Hz frequency. Duration of treatment session is 30 minutes in each mode. Course of treatment consists of 6-10 sessions. EFFECT: increased efficiency of correction. 3 ex, 7 tbl

Description

 The invention relates to medicine and relates to physiotherapeutic methods of treating functional abnormalities in the central nervous system as independent nosological forms, and concomitant with other pathological conditions.

 There is a method of changing the functional state of a person by modifying the electroencephalogram using photostimulation of different colors (E.T. Petrenko, E.G. Zarkeshev) (1).

 The disadvantages of this method is that different color stimuli have equal frequencies in the range of 12 Hz and they are not synchronized with the main biorhythms of capillary blood flow and are not controlled by the intensity of exposure.

 Closest to the proposed technical solution is a method of changing the state of the human body under the influence of color and sound, modulated by the rhythm and depth of breathing (S.V. Guskov, V.I. Kiseleva, T.S. Kilina) (2).

The disadvantages of this method are:
1. The use of different color pulses (red, green, blue) of equal frequency inside the phase of inspiration and expiration (0.9-1.0 Hz).

 2. There is no synchronization of the rhythms of the functional load (color and sound) with all the basic rhythms of cell energy and, above all, with the arterial component of the capillary blood flow (with the venous component there is respiration).

 3. There is no control on the intensity of exposure to both color and sound stimuli through biological feedback (BFB).

 The objective of the technical solution is to develop a method for correcting functional states by bioadaptive regulation with synchronization of exposure parameters both in intensity and frequency with BOS parameters.

 The problem is solved in such a way that the effect is carried out by means of a changing color gamut of the visible light spectrum on the patient’s organs of vision in a pulsed mode with frequency scanning in the range of EEG rhythms.

 At the same time, the parameters of the color effect in intensity are automatically matched with the parameters of the biofeedback by means of pulse and respiration sensors (binocular controlled synchromatic stimulation).

 The method is as follows.

 The patient is seated in a comfortable position on a chair in front of an IBM PC computer screen. AT.586. The respiratory sensor is fixed on the chest, and the pulse sensor is installed on the nail phalanx of any finger.

 Initial patient data are recorded: 1. Psychological profile according to the Eysenck questionnaire; 2. Vegetative profile based on information analysis of the interpulse interval.

 After establishing the degree of neurotization and the level of psychoemotional stress, a program of action is chosen: 1. relaxation; 2. harmonization with elements of stimulation.

 The relaxation program is chosen when determining a high or medium degree of neurotization, as well as with a pronounced and sharply expressed predominance in the regulation of the sympathetic nervous system (normalized relative entropy of the interpulse interval hn ≤ 0.22: T.I. Yakunchenko, 1990, F.A. Pyatakovich, T.I. Yakunchenko, A.I.Kolkov, 1988) (3), (4).

 The harmonization program with stimulation elements is selected in the presence of a high or medium degree of neurotization with moderate predominance of the sympathetic nervous system (SNA), moderate and pronounced predominance of the parasympathetic nervous system (PSNS) (with normalized relative entropy hn> 0.22).

 The formula of the relaxation program corresponds to the delta-theta alpha rhythm of the EEG, i.e., a sequence of two blinking squares with a change in yellow, blue, green. The exposure time is 30 minutes.

 The parameters of the relaxation formula correspond to the so-called "sleep spindles" on the EEG, i.e. include a time sequence of a carrier frequency of 4 Hz for a period of 0.25 s in the form of 2 flashing green squares, interrupted every 5 with a sequence of 2 flashing blue squares with a frequency of 8 Hz and a period of 0.125 s. The duration of the entire spindle is 1.25 s, and the spindle starts with a delta rhythm with a frequency of 3 Hz and a duration of 0.33 s, which corresponds to yellow.

 The formula of the harmonization program with stimulation elements corresponds to the time sequence of beta-theta-alpha EEG rhythm and consists of 2 blinking squares with a change in purple, green and blue. The exposure time is 30 minutes.

 The parameters of the harmonization formula with stimulation elements correspond to a time sequence with frequencies of 17 Hz; 4 Hz; 12.5 Hz, i.e. beta theta alpha rhythm. The beta rhythm corresponded to 3 violet flashes with a total sequence of 0.18 s (3 • 1/17), the theta rhythm corresponded to 1 green pulse with a total duration of 0.25 s (1 • 1/4), the alpha rhythm corresponded to 5 blue pulses with a total duration of 0.40 s (5 • 1 / 12.5).

 The severity of individual rhythms in the considered sequence according to the "golden ratio" rule, which ensured the harmonic ratio of the alpha theta of the range of magnitude (0.40 / 0.25 = 1.6) and the percentage ratio of the considered wave ranges to the criteria accepted in the literature for adaptive bioregulation (S.I. Soroko, S.S. Bekshaev, Yu.A. Sidorov) (5).

 The parameters of the color sequence, the ratio of frequencies and time intervals of exposure regimes belong to the know-how of the authors.

 The sync pulse corresponds to the current pulse value and appears on the screen between the flashing colored squares in the form of a red rectangle with a digital indication of the heart rate. The intensity of the illumination of the screen decreases with increasing amplitude of inspiration, which leads to an increase in the brightness of the color of the blinking squares.

 Examples of the correction of the functional state of patients using the proposed method are presented below.

 Observation N 47 of January 9, 1994. Patient P.A.I. 48 years old, electric locomotive driver.

 Diagnosis: hypertension 2-A, sick 2 years. Complaints of poor sleep, irritability, headache. Exacerbation of the symptoms of the disease is associated with a family conflict that arose two weeks ago. Blood pressure: Max - 155, Min - 105. With an objective examination of the lungs, vesicular breathing without wheezing. Heart sounds are clean, rhythmic. Percussion is the left border of the heart along the mid-clavicular line.

 On the ECG: deviation of the electrical axis of the heart to the left, horizontal electrical position, signs of minor changes in the myocardium of the left ventricle. On the fundus is a symptom of Guna-Salus I degree. According to the psychological questionnaire by Eysenck, the patient belongs to the introverted type of personality with a high level of neuroticism. Outpatient treatment is recommended for the patient, followed by referral to a dispensary.

 The patient underwent a pulsometric study with information analysis of the pulse interval, which allowed to establish a high degree of tension of the sympathetic nervous system: Mo = 0.75 (mode), which corresponds to 80 pulse beats. Amo = 55% (mode amplitude), hn = 0.13 (normalized relative entropy).

 In connection with the revealed subjective and objective signs of high neuro-emotional stress, confirmed by the results of the analysis of the temporal ordering of the pulse, the patient was prescribed treatment in the form of binocular controlled syncrocostimulation (CST) using the first mode of exposure according to the formula of the relaxation program for 30 minutes, a total of 8 "procedures".

 The distribution of interpulse intervals before and after 30 minutes of exposure are presented in table 1.

 From the data presented in the table it follows that after a 30-minute exposure by the proposed method, the patient shows a slowdown in the heart rate by 5 beats (60 / 0.75 = 80 and 60 / 0.80 = 75), a decrease in the amplitude of the mode, and an increase in the variational range (0.75 - 0.70 = 0.05 and 0.85 - 0.70 = 0.15). A similar dynamics of the parameters of the variational pulsogram indicates an increase in the contribution to the regulation of the heart rhythm of the parasympathetic nervous system and is due to a restructuring of the internal structure of the rhythm: an increase in the degrees of the free system (increase in normalized relative enteropia to 0.22), an increase in the amplitude and period of the respiratory component (A = 0.348; Per = 3 and A = 0.656; Per = 8) of the spectrum of the interpulse interval.

 The observed differences in the methods of organizing the rhythm of heart contractions before and after binocular controlled synchrocostimulation are highly reliable, since the distribution discrepancy of 58% indicates a high information content of the different signs.

 During the exposure, the respiratory rate significantly decreased (from 19 to 10) and the blood pressure did not change. No changes were noted in the general well-being of the patient.

 The reduction of signs of neuro-emotional stress occurred after the third “procedure” of exposure: internal tension decreased, anxiety, and sleep improved. By the end of the course, blood pressure stabilized at the upper limits of the norm (the patient did not take any medications), irritability disappeared, and sleep completely normalized.

 Observation N 58: Patient G.A.A. 33 years old, master seamstress. It is observed on an outpatient basis.

 She was consulted on December 20, 1993 on the suspicion of diffuse toxic goiter with the phenomena of tereotoxicosis: complaints of increased irritability, poor sleep, anxiety, periodic intense headache, and high blood pressure. AD-140/90. The disease is associated with the death of close relatives.

 With an objective examination, the patient has the correct physique, increased nutrition. In the lungs, vesicular breathing, without wheezing. Percussion borders of the heart are not changed, heart sounds are clean, not rhythmic. The abdomen is soft, painless, the liver and spleen are not enlarged, with palpation of normal consistency and size. Eye symptoms are negative.

 Eysenck testing: extrovert, high level of neuroticism. On the ECG: normal type with a tendency to the left, semi-horizontal electrical position; single ventricular extrasystoles.

 An ultrasound examination of the abdominal organs revealed no pathology.

 As a result of the studies, the diagnosis of thyrotoxicosis was refuted, and the existing symptoms were regarded as neurosis by the type of neurasthenia with the syndrome of vegetative-vascular dystonia.

 A course of binocular syncrocostimulation of 10 procedures was prescribed in a relaxation mode of 30 minutes. The exposure was carried out on a non-drug background and before eating. The parameters of the formula are similar to the first observation.

 The results of the pulsometric studies before and after exposure are presented in table 2.

 The data considered in the table were obtained on the 5th exposure procedure, when the patient lost heart rhythm disturbances. The observed dynamics is associated with a slowdown in heart contractions by 7 beats per minute, as well as an increase in rhythm, as evidenced by a decrease in the variation range (1.10 - 0.60 = 0.50 and 0.75 - 0.60 = 0.15). Judging by the normalized relative entropy, a pronounced predominance of the sympathetic nervous system (hn = 0.18) is noted in the regulation of rhythm. The dynamics of reducing signs of psycho-emotional stress began to appear only after the 8th “procedure” of exposure: sleep improved, irritability decreased, and anxiety decreased. Blood pressure stabilized at the numbers 115/75: 110/75. After 10 "procedures" of exposure according to the information analysis of the pulse interval, an increase in the contribution of the parasympathetic nervous system to the regulation of heart rhythm was noted in the contribution of the parasympathetic nervous system: the normalized relative energy increased to 0.34. The respiratory rate from 20 in the first five exposures decreased to 14 in subsequent ones.

 Observation N 47 of 17.1.94. Patient P.A.I. 46 years old, a mathematics teacher. Diagnosis: neurasthenia with hypochondriac syndrome. Complaints: sleep disturbance, increased irritability, stitching pains in the heart, a feeling of incomplete inhalation, thoughts about the "severity of the disease" and its possible poor outcome. An objective examination: in the lungs, vesicular breathing without wheezing, in the heart, tones are clean, rhythmic. AD-110/70. The abdomen is soft, painless, the liver and spleen are not enlarged.

 On the ECG: the electrical axis of the heart is not deviated, the normal electrical position of the pathological elements of the ECG is not registered.

 Testing on the Eysenck questionnaire revealed the prevalence of extroverted personality traits with a high level of neuroticism.

 The patient was assigned 6 "procedures" of binocular controlled syncrocostimulation without taking medication for the period of exposure according to the proposed method. The selected exposure mode: harmonization with elements of stimulation.

 The results of the pulsometric analysis of the patient P.A.I. before and after exposure are presented in table 3.

 From the data presented in the table it follows that in the period before exposure, the range 1.00 - 1.04 is significantly more likely to occur and in the period after color exposure - the range is 0.95 - 0.99. Thus, the heart rate in the process of binocular controlled color stimulation has become higher by an average of 3 strokes.

 The period of respiratory waves decreased from 4 to 2.9 s with a simultaneous increase in their average power. Significantly increased the average power of slow waves of the first order with an insignificant decrease in the period (0.9 and 17 before exposure, and 2.6 and 15.8, respectively, after exposure). The average respiratory rate after exposure increased from 16 to 19 per minute. Blood pressure also increased slightly (to 115/75 and after - 120/75).

 Judging by the dynamics of information indicators of the temporal ordering of the pulse, the degree of neuro-emotional stress decreased slightly: normalized relative anthropy increased from 0.24 to 0.29.

 From the somatic status, the disappearance of the symptom of an incomplete sigh was noted. Reduction of other signs of neurosis began to be observed after the 4th “procedure” of treatment: improved and then completely normalized sleep, irritability and a sense of internal anxiety disappeared, hypochondriac syndrome was completely stopped.

 In the absence of a long history of neurotization and the absence of signs of somatic diseases, reduction of signs of a neurotic state is noted at an earlier date.

 Observation N 27: Patient K.V.D. 56 years old, associate professor of medical institute. Complaints of increased emotional instability, irritability, poor sleep, anxiety. The noted signs appeared in mid-December 1993 and are due to the uncertainty associated with the ability to continue working in the specialty.

 According to the results of the analysis of the Eysenck questionnaire, the patient refers to introverted personality types with a high level of neuroticism, and according to the Spielberger questionnaire, the patient revealed a high level of both personal and reactive anxiety.

 An objective examination showed no signs of somatic diseases, and the symptoms noted above are regarded as a neurotic condition. The patient was assigned binocular controlled synchrocostimulation in the amount of 6 "procedures" for 30 minutes daily in the morning before eating. The patient also did not receive medicines.

 The first exposure to CUS according to the formula of the relaxation program was carried out on January 6, 1994.

 The dynamics of the results of exposure are presented in table 4.

 In the period before exposure to heart rate, the patient had 86 beats per minute, high values of the mode amplitude (87%) and a small variation range. According to the information analysis of the interpulse interval, the normalized relative entropy was 0.10. The marked deviations indicate sharply expressed predominance in the regulation of the sympathetic nervous system.

 In the period after the impact of heart rate, the reduction remained unchanged, one mode amplitude became 2.3 times smaller, the variational range increased from 0.10 to 0.15 s and, most importantly, the normalized relative entropy increased 2.7 times ( 0.27). Such dynamics reflect an increase in the contribution to the regulation of the parasympathetic nervous system, which is further evidenced by the increase in the period of respiratory waves with an increase in their amplitude (6.6 and 0.362 before exposure and 9.025 and 0.627 after exposure).

 The observed differences in the parameters of the distribution of the temporal ordering of the pulse are statistically 49%.

 After the second treatment session, the patient disappeared symptoms of anxiety and increased emotionality, signs of irritability and sleep disturbances began to decrease after the fourth procedure, and after the sixth procedure, complete normalization of sleep. No dynamics in blood pressure values was noted.

 Thus, the presented data obtained in the dynamics before and after exposure to color stimuli synchronized with the rhythms of the pulse and respiration convincingly indicate the possibility of directionally changing both the level of psychoemotional stress and stopping neurotic states.

 Evaluation of the effectiveness of course treatment using the proposed method was carried out in 77 people, among whom were 19 women and 58 men. All noted various functional disorders of the central nervous system. The group of patients included 87% with a diagnosis of hypertension 2-A art. and 13% of patients with neurosis and neurotic conditions. The control group - students of the Kursk Polytechnic Institute - were examined twice in the period before and after binocular controlled syncrocostimulation before passing the critical exam. The age of patients ranged from 13 to 60 years, the average age of healthy - 19 years.

 The results of the statistical processing of the parameters of the information analysis of the temporal ordering of the pulse and the parameters of the spectral analysis, which make it possible to divide the subjects into various functional classes, are presented in tables 5-7.

 As can be seen from the data presented in table 5, a pronounced and pronounced predominance of the sympathetic nervous system (SNA) was observed in 50% of patients and only in 8% of the control group in the background period before exposure. At the same time, the prevalence in the regulation of the parasympathetic nervous system (PSNS) was observed only in individuals in the control group - 28%. It is noteworthy that the harmonic interaction of the sympathetic and parasympathetic nervous systems is recorded in only 4% of patients, and in individuals in the control group 7 times more often - 28%.

 In the period after exposure to the proposed method, the number of patients with a pronounced and pronounced predominance of the sympathetic nervous system significantly decreased and the number of people with a moderate predominance of the sympathetic nervous system in regulation and normal autonomic hemeostasis increased. Such dynamics reflects a decrease in the degree of neuro-emotional stress during the course of exposure to color stimulation. Regression of clinical manifestations in the form of normalization of sleep, the disappearance of irritability, anxiety, mood improvement fully confirms these findings.

 In control group individuals, significant dynamics was observed only in the range of pronounced and moderately pronounced predominance of the sympathetic nervous system: in the period after exposure, a moderate predominance in the regulation of the sympathetic nervous system was significantly more likely. In other ranges, the available dynamics are not very informative. Thus, the effect of color stimulation in healthy individuals is accompanied by a change in vegetative status, mainly in those with significant deviations in the background.

 An objective reflection of the dynamics of vegetative status is the registration of the internal structure of the heart rhythm and this is expressed in the manifestations of the function of automatism.

 The division of subjects into separate classes depending on changes in the function of automatism is presented in table 6.

 As follows from the data presented, in 80% of patients in the period prior to exposure, a sinus rhythm and moderate sinus arrhythmia were observed, the ranges of stable rhythm, severe sinus arrhythmia and impaired automatism were found approximately equally. It must be emphasized that the revealed changes are by no means pathological, but are functional and depend on current regulatory influences.

 In the period after the course exposure with the help of binocular controlled color stimulation, a significant increase in the number of patients in the ranges with moderate and severe sinus arrhythmia is noted.

 In the control group, in the period before exposure, a predominance of the range of pronounced sinus arrhythmia and moderate disorders of automatism is noted. Color stimulation did not lead to significant changes in the function of automatism.

 The analysis of the autocorrelation function and the spectrum of interpulse intervals showed that during the course of treatment, patients have an increase in the period and amplitude of the respiratory component: before the course of treatment, the period of the respiratory component was 3.3 + 0.06 s and, accordingly, after - 7.4 + 0 , 05 s; the amplitude of the respiratory wave increased from 0.34 + 0.02 to 0.65 + 0.04 relative units. In a separate analysis of the respiratory cycle, it is noteworthy that an increase in neuro-emotional stress is accompanied by a clear dynamics of the asymmetry of the respiratory cycle: the respiration period is shortened mainly due to the shortening of the expiratory phase (asymmetry corresponds to the ratio of the expiratory phase to the duration of the respiratory cycle: norm 2.15 / 4, 05 = 0.53; neuro-emotional stress 1.9 / 3.3 = 0.60; relaxation 3.9 / 7.4 = 0.527).

 According to the generally accepted opinion in the literature, such dynamics is associated with an increase in the contribution to the regulation of the parasympathetic nervous system. This is also additionally confirmed by the results of a study of the control group, which prevail in the regulation of the parasympathetic nervous system and normal autonomic homeostasis in 56% of individuals.

 Based on a complex algorithm for analyzing the autocorrelation function and the spectrum of the interpulse interval, the activity of subcortical nerve centers was estimated (R.M. Baevsky, O.A. Kirillov, S.Z. Kletskin) (6). The division of the subjects into separate classes depending on the influence of color stimulation are presented in table 7.

 From the data presented in the table it follows that in patients in the background in 57% of cases there is a marked increase in the activity of the subcortical nerve centers, and in the period after course color stimulation only in 20% of patients. The number of patients with normal activity of subcortical nerve centers is also increasing. The observed difference in the ranges (37% and 44%) before and after the course exposure is statistically significant (the difference in distributions, equal to the half-sum of their difference - 44%, is highly informative).

 Among the control group, a marked increase in the activity of the subcortical nerve centers is found almost three times less than in the group of patients. The effect of color stimulation leads to a significant decrease in the number of individuals with a marked increase in subcortical nerve centers and a significant increase in the number of individuals with normal activity of subcortical nerve centers.

 An analysis of the clinical data presented in the dynamics and the results of mathematical processing of the temporal ordering of the pulse showed that the method of exposure using binocular controlled synchrocostomy stimulation provides not only an intrasystem reorganization of the central nervous system functions with correction of the functional state, but also an intersystem reorganization affecting the management functions of the cardiovascular and respiratory systems . In addition, it was noted that the correction of the functional state is noted only in those patients who have certain deviations not only in subjective manifestations, but primarily in objective changes in regulation that affect the parameters of the temporal ordering of the pulse. The same applies to the correction of the functional state of healthy individuals with situational deviations of their neuro-emotional status.

Scientific and technical literature and technical documentation
1. Petrenko E.T., Zarkashev E.G. The influence of photostimulation of different colors on the working electroencephalogram and the effectiveness of human movements. // Journal of Higher Nervous Activity. 1989, v. 39, No. 4, p. 746-748.

 2. Guskov S.V., Seleznev V.I., Kilina T.S. Quantitative analysis of the state of the human body with color and sound exposure, modulated by rhythm and depth of breath. // Human physiology, 1987, v. 13, N 3, p. 411-418.

 3. Yakunichenko T.I. Temporary pulse ordering and its diagnostic capabilities in patients with peptic ulcer. : Dis. Cand, honey. Sciences., Kursk, 1990, 229 pp.

 4. Pyatakovich F.A., Fkunchenko T.I., Kolkov A.I., Tsaturyan A.A. Modeling the structural and functional organization of the rhythm of heart contractions in assessing human conditions using the "golden section" method. // Modeling in clinical practice: Republican collection of scientific papers. Moscow, 1988, p. 130-135.

 5. Soroko S.I., Bekshaev S.S., Sidorov Yu.A. The main types of mechanisms of brain self-regulation. Leningrad, Science, 1990, 205 p.

 6. Baevsky R.M., Kirillov O.I., Kletskin S.Z. Mathematical analysis of changes in heart rate during stress. M., 1984, 224 p.

Claims (1)

 A method for correcting functional states, including binocular color stimulation modulated by the depth of breathing, characterized in that the stimulation is carried out with colored pulses in frequency and intensity in the wave range of the EEG in synchronization with the rhythms of the pulse ejection and breathing, the sync pulse corresponding to the current pulse value is presented on the screen between the flashing colored squares in the form of a red rectangle with a drop in screen illumination with an increase in inspiratory amplitude, while the patient’s vegetative profile is determined by analyzing the interpulse intervals and with a pronounced and pronounced predominance in the regulation of the sympathetic nervous system and with respect to entropy hn <= 0.22, the effect is performed in the relaxation mode, which includes a time sequence of a carrier frequency of 4.0 Hz for a period 0.25 s in the form of two flashing green squares, interrupted every 5 with a sequence of two flashing blue squares with a frequency of 8.0 Hz and a period of 0.125 s, and when a moderate prevalence of sympathy is detected of the nervous system or the pronounced predominance of the parasympathetic nervous system and relative entropy hn> 0.22, the effect is performed in the mode of “harmonization with stimulation elements”, including a time sequence of three violet pulses with a frequency of 17.0 Hz, one green pulse with a frequency of 4.0 Hz and five blue pulses with a frequency of 12.5 Hz, the duration of the procedure for each mode is 30 minutes, the course is 6-10 procedures.

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