RU2419381C1 - Method of estimating adaptive abilities of human organism under physical loading and methods of treating reduction of adaptive abilities - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, functional diagnostics. Spectrum of dynamic series of cardiointervals is registered. Power in series ranges and total spectrum power (TP) are measured. Normative values of total spectral power and power in series ranges, averaged on large quantity of examinations in standard conditions of registering, are determined. Measurements are carried out in ranges 0.003-0.004 Hz, 00062-0.0072 Hz, 0.010-0.014 Hz, 0.0163-0.0173 Hz, 0.023-0.029 Hz, 0.031-0.035 Hz, 0.039-0.041 Hz. Parametre Sj - ratio of power for each of mentioned above ranges to total spectrum power (TP) in % is determined. Power of LF, HP, LF/HF is determined. Each parametre depending on its value is related to one of four conventional groups. Each group is given a weighting coefficient k from 0 to 4. By value of sum of weighting coefficients (k) normal or reduced adaptive abilities are determined. Treatment of various types of reduction of adaptive abilities is carried out by exposure of biologically active points to EHF-radiation.

EFFECT: method makes it possible to carry out treatment in accordance with determined type of reduction of adaptive abilities.

7 cl, 8 tbl, 5 ex

Description

The invention relates to medicine, namely to functional diagnostics, and can be used to determine the adaptive capabilities of the regulatory resources of the human body during physical exertion.

A known method for assessing the adaptive capabilities of regulatory resources, including the study of heart rate variability, determining the values of the spectral analysis parameters of the cardiointervalogram LF-HF / RF Patent No. 2344749 /. The known method does not provide information about the violation of the functions of specific organs or functional systems of the human body.

The prototype of the claimed invention is a method for diagnosing pathological conditions of a person, including recording the spectrum of the dynamic range of cardio intervals, measuring power in the ranges of the series and the total power of the spectrum (TP), determining standard values of the total spectral power and power in the ranges of the series, averaged over a large number of studies under standard conditions recording, while the power is measured in the ranges of 0.003-0.004 Hz and diagnosed with the state of the supra-segmental level of the ANS, 0.0062-0.0072 Hz and diagnosed with hypothalamus, 0.010-0.014 Hz and diagnose the state of the pituitary gland, 0.0163-0.0173 Hz and diagnose the state of the thyroid gland, 0.023-0.029 Hz and diagnose the state of the sympathoadrenal system, 0.031-0.035 Hz and diagnose the state of the steroid hormone system, 0.039 -0.041 Hz and diagnose the condition of the baroreceptors of the aortic arch, then determine the indicator S _i - the ratio of power for each of the above ranges to the total spectrum power (TP) in%, and as standard values of the range 0.003-0.004 Hz use the indicator S _i = 9 , 27 ± 0.5%; the range of 0.0062-0.0072 Hz indicator S _i = 10,12 ± 0,6%; the range of 0.010-0.014 Hz indicator S _i = 9.48 ± 0.7%; the range of 0.0163-0.0173 Hz indicator S _i = 3.63 ± 0.3%; range 0.023-0.029 Hz indicator S _i = 4.95 ± 0.8%; range 0.031-0.035 Hz indicator S _i = 2.03 ± 0.4%; range 0.039-0.041 Hz indicator S _i = 0.69 ± 0.2% / RF Patent No. 2315557 /. To assess the adaptive capabilities of the human body during physical exertion, the known method can only have limited use for the following reasons. Long-term physical activity is characteristic of many types of professional activity, each of which is characterized by a constant tension of various regulatory systems associated with the impact on the human body of various complexes of physical activity and stress factors. The decrease in the adaptive capacity of the body serves as a prognostic adverse sign and serves as one of the causes of the development of diseases and injuries / Wilmore J.X., Costill D.L. Physiology of Sports: Per. from English Kiev: Olympic literature. - 2001.456 s./. The study of heart rate variability as a method of assessing the adaptive capabilities of the body or the current level of stress in the context of each professional activity is of practical interest for various fields of medicine, makes it possible to identify pre-pathological conditions in the early stages and make a correction in the intensity of the work process. The development of prenosological diagnostics makes it possible to distinguish among practically healthy people individuals with a high voltage of regulatory systems, an increased risk of failure to adapt and develop diseases. Such people need regular monitoring of stress levels and recommendations for individual correction of physical activity, in order to maintain health and achieve high professional results / Mikhailov V.M. Heart rate variability. Practical experience. Ivanovo: - 2000 - 200 p. /.

The task of the invention is to assess the current adaptive capabilities of the human body during physical exertion and timely planning of the intensity of the work process, taking into account the individual state of the body. The technical result is achieved due to a clear quantitative and qualitative (by weight coefficients) distribution of people into groups with varying degrees of adaptive capabilities, while there are three types of decrease in adaptive capabilities.

A prototype of the methods of treatment of the claimed invention is a method of treating chronic fatigue syndrome, including exposure to EHF radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in a predetermined sequence on biologically active points / RF Patent No. 2295946 /. However, this method does not take into account the characteristics of the treatment of the identified three types of reduction in adaptive capabilities.

The objective of the proposed methods is to assess the current adaptive capabilities of a person and timely treatment planning taking into account his individual condition. The technical result is achieved due to the fact that first establish the type of reduction of adaptive capabilities, and then prescribe the appropriate treatment.

The problem with the achievement of the above technical result is solved by the fact that the method of assessing the adaptive capabilities of the human body to physical activity includes recording the spectrum of the dynamic range of cardio intervals, measuring power in the ranges of the series and the total spectrum power (TP), determining standard values for the total spectral power and power in ranges of the series averaged over a large number of studies under standard recording conditions, while the power is measured in the ranges of 0.003-0.004 Hz, 0.0062-0.0072 Hz, 0.0 10-0.014 Hz, 0.0163-0.0173 Hz, 0.023-0.029 Hz, 0.031-0.035 Hz, 0.039-0.041 Hz, then determine the indicator S _i - the ratio of power for each of the above ranges to the total spectrum power (TP) in%, and as standard values in the range of 0.003-0.004 Hz use the indicator S _i = 9.27 ± 0.5%; the range of 0.0062-0.0072 Hz indicator S _i = 10,12 ± 0,6%; the range of 0.010-0.014 Hz indicator S _i = 9.48 ± 0.7%; the range of 0.0163-0.0173 Hz indicator S _i = 3.63 ± 0.3%; range 0.023-0.029 Hz indicator S _i = 4.95 ± 0.8%; range 0.031-0.035 Hz indicator S _i = 2.03 ± 0.4%; range 0.039-0.041 Hz indicator S _i = 0.69 ± 0.2%. According to the invention, the spectrum power in the frequency range 0.04-0.15 Hz (LF), the spectrum power in the frequency range 0.15-0.40 Hz (HF), the ratio of the power of the frequency ranges LF / HF, and then each parameter in depending on its value, it belongs to one of four conditional groups with different functional states, with a total spectrum power (TP) equal to 5932 ± 1570 ms ² / Hz, and the LF / HF ratio from 0.7 to 2.0 is assigned the first group, with a total spectrum power (TP) of 2473 ± 1078 ms ² / Hz, and an LF / HF ratio of more than 3.1 to 4.0, the second group is assigned, with a total power spectrum span (TP) less than 1000 ms ² / Hz and LF / HF ratio greater than or equal to 4.1, assign a third group, with a total spectrum power (TP) greater than 11360 ms ² / Hz and LF / HF ratio greater than or equal 4.1, assign a fourth group; in the range of 0.003-0.004 Hz, with a value of 9.27 ± 0.5, the first group is assigned, with a value of 4.85 ± 0, 5, a second group is assigned, with a value of 1.85 ± 0.1, a third group is assigned, with a value of 2.75 ± 0.2 assign the fourth group; in the range of 0.0062-0.0072 Hz with a value of 10.12 ± 0.6, the first group is assigned, with a value of 4.83 ± 0.6, the second group is assigned, with a value of 6.83 ± 0.6, the third group is assigned, with a value of 15.6 ± 0.75 is assigned to the fourth group; in the range of 0.010-0.014 Hz, with a value of 9.48 ± 0.7, the first group is assigned, with a value of 11.28 ± 0.7, a second group is assigned, with a value of 2.28 ± 0.28, a third group is assigned, with a value of 3.75 ± 0.37 assign the fourth group; in the range of 0.0163-0.0173 Hz with a value of 3.63 ± 0.3, the first group is assigned, with a value of 2.6 ± 0.3, the second group is assigned, with a value of 3.26 ± 0.26, the third group is assigned, with a value of 5.41 ± 0.25 is assigned to the fourth group; in the range of 0.023-0.029 Hz at a value of 4.95 ± 0.8, the first group is assigned, at a value of 1.85 ± 0.1, a second group is assigned, at a value of 1.65 ± 0.1, a third group is assigned, at a value of 2.75 ± 0.3 assign the fourth group; in the range of 0.031-0.035 Hz with a value of 2.03 ± 0.4, the first group is assigned, with a value of 4.53 ± 0.4, a second group is assigned, with a value of 1.01 ± 0.1, a third group is assigned, with a value of 1.23 ± 0.1 assign the fourth group; in the range of 0.039-0.041 Hz with a value of 0.69 ± 0.1, the first group is assigned, with a value of 0.3 ± 0.05, the second group is assigned, with a value of 0.46 ± 0.05, the third group is assigned, with a value of 2.73 ± 0.21, a fourth group is assigned, and a weight coefficient (k) is assigned to each group, a weight coefficient (k) equal to “0” is assigned to the first group, a weight coefficient (k) equal to “1” is assigned to the second group, a weight group is assigned to the third group coefficient (k) equal to "2", the fourth group is assigned a weight coefficient (k) equal to "3", with the value of the sum of weight coefficients factors (k) in the range from "0" to "+4" consider that a person is in good physical condition - the norm, when the value of the sum of weighting factors (k) in the range from "+5" to "+12" consider that a person has reduced functionality of the first type, with a value of the sum of weights (k) ranging from +13 to +19, it is believed that a person has reduced functionality of a second type, with a value of the sum of weights (k) ranging from "+20" to "+24" believe that a person has reduced functionality third of the species.

The problem is achieved with the achievement of the above technical result is solved by the fact that the method of treatment of the first type of reduction of adaptive capabilities according to the above method of assessing adaptive capabilities includes exposure to EHF-radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in a given sequence on biologically active points . According to the invention, the effect on biologically active points is carried out at modulated low frequencies of 1.75 ± 0.1 Hz, 6.4 ± 0.13 Hz and 10.0 ± 0.33 Hz in the sequence E 36 on the right and G i4 on the left in the first procedure , E 36 on the left and Gi 4 on the right in the second procedure, F 8 on the right and VG 14 in the third procedure, F 8 on the left and VG 14 in the fourth procedure, VB 34 on the right and Rp 9 on the left in the fifth procedure, VB 34 on the left and Rp 9 on the right in the sixth procedure. In each procedure, the effect on biologically active points is first carried out at a modulated low frequency of 1.75 ± 0.1 Hz for 4 minutes, at a frequency of 6.4 ± 0.13 Hz for 5 minutes, at a frequency of 10.0 ± 0, 33 Hz for 6 minutes, while the exposure time at all points is 15 minutes, and the number of procedures per treatment course is 6.

The problem is achieved with the achievement of the above technical result is solved by the fact that the method of treatment of the second type of reduction of adaptive capabilities by the above method for assessing adaptive capabilities includes exposure to EHF radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in the sequence 4.0 ± 0 , 14 Hz, 9.4 ± 0.33 Hz at biologically active points. According to the invention, biologically active points are exposed at each modulated low frequency in the sequence E 36 on the right and Gi 11 on the left in the first procedure, E 36 on the left and Gi 11 on the right in the second procedure, F 2 on the right and VG 14 in the third procedure, F2 on the left and VG 14 in the fourth procedure, VB 34 on the right and MS 6 on the left in the fifth procedure, VB 34 on the left and MS 6 on the right in the sixth procedure, V60 on the right and Rp6 on the left in the seventh procedure, V 60 on the left and Rp 6 on the right in the eighth procedure, Gi 4 left and VG 14 in the ninth procedure, Gi 4 on the right and VG 14 in the tenth procedure. In each procedure, the effect on biologically active points is first carried out at a modulated low frequency of 4.0 ± 0.14 Hz for 5 minutes, then at a frequency of 9.4 ± 0.33 Hz for 5 minutes, and the number of procedures per treatment course is 10 .

The problem is achieved with the achievement of the above technical result is solved by the fact that the method of treatment of the third type of reduction of adaptive capabilities by the above method of assessing adaptive capabilities includes exposure to EHF-radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in a given sequence on biologically active points . According to the invention, the modulation is carried out at low frequencies of 4.6 ± 0.14 Hz and 9.6 ± 0.13 Hz, while the impact on biologically active points is carried out at each modulated low frequency in the sequence E 36 on the right and Gi 11 on the left in the first procedure , E 36 on the left and Gi 11 on the right in the second procedure, F 2 on the right and VG 14 in the third procedure, F 2 on the left and VG 14 in the fourth procedure, VB 34 on the right and MC 6 on the left in the fifth procedure, VB 34 on the left and MS 6 on the right in the sixth procedure. In each procedure, the effect on biologically active points is first carried out at a modulated low frequency of 4.6 ± 0.14 Hz for 4 minutes, then at a frequency of 9.6 ± 0.13 for 6 minutes, and the number of procedures per treatment course is 6.

The method of assessing the adaptive capabilities of the human body during physical exertion is as follows.

To implement the proposed method, a VNS-Micro apparatus for studying the autonomic nervous system was used with the Poly-Spectrum-3 program for analyzing heart rate variability using the resting heart rate analysis method in accordance with the International Standard (1996) (manufacturer LLC " Neurosoft ", Russia, Ivanovo, registration certificate of the State Register of Medical Devices and Medical Equipment No. FS 02262003 / 0974-04 of December 9, 2004). The equipment allows recording the components of the spectrum of the dynamic range of cardio intervals, measuring the power in the declared ranges of the series and the total power of the spectrum.

Research and analysis of HRV includes three stages:

1. Recording the components of the spectrum of the dynamic range of cardio intervals.

2. Measurement of capacities in the proposed ranges of the series and the total power of the spectrum.

3. Evaluation of the results of HRV analysis.

Studies are carried out in relative peace. An ECG signal is recorded in one of the standard or pectoral leads. The recording time should be 5 minutes.

The study of HRV is started no earlier than 1.5-2 hours after eating, in a quiet room in which a constant temperature of 20-22 ° C is maintained. Before the study, the abolition of physiotherapeutic procedures and drug treatment is mandatory, or these factors must be taken into account when evaluating the results of the study. Before the start of the study, a period of adaptation to environmental conditions is necessary for 5-10 minutes.

ECG recording is performed while lying on your back or sitting, with calm breathing. A study in women is preferably carried out in the intermenstrual period, since hormonal changes in the body are reflected in the cardiointervalogram. It is necessary to eliminate all the obstacles that lead to emotional arousal, not to talk with the researcher and strangers, to exclude phone calls and the appearance of other persons in the office, including medical personnel. During the study of HRV, the patient should breathe without taking deep breaths, cough, swallow saliva.

After recording the components of the spectrum of the dynamic range of cardio intervals, a mathematical analysis of the obtained data is carried out with the calculation of the powers in the proposed ranges and the total spectrum power, after which the obtained data are compared with the normative. When analyzing heart rate variability, the following indicators are determined:

TP is the total power of the spectrum;

LF - spectrum power in the frequency range 0.04-0.15 Hz, reflects the contribution of the sympathetic nervous system to autonomic regulation;

HF - spectrum power in the frequency range 0.15-0.40 Hz, reflects the contribution of the parasympathetic nervous system to autonomic regulation;

LF / HF - power ratio of the respective frequency ranges;

% LF is the fraction of the spectrum power in the frequency range 0.04-0.15 Hz;

% HF is the fraction of the spectrum power in the frequency range 0.15-0.40 Hz.

To identify the general patterns of changes in autonomic regulation, athletes involved in various sports were examined: cyclic (swimming, athletics), martial arts (Greco-Roman wrestling), complex coordination (gymnastics, aerobics). The choice of athletes as objects of study is due to the fact that each of the above sports is characterized by prolonged physical activity characteristic of many non-sports types of professional activity, each of which is characterized by a constant tension of various regulatory systems associated with the impact on the human body of various complexes of physical activity and stress factors. The study involved 82 people: boys and girls involved in various sports, different age groups (from 12 to 42 years old), various sports qualifications, with experience in sports for at least 3 years. Women made up 35.5% of the examined, men - 64.5%. According to the level of sportsmanship, athletes were divided as follows: II sports category - 17 people, I sports category - 18 people, candidates for masters of sports (KMC) - 25 people, masters of sports (MS) - 12 people, masters of sports international class (MSMK) - 6 people, Honored Masters of Sports (ZMS) - 4 people. To verify (confirm the reliability) of the obtained data, a clinical study of the state of the autonomic nervous system was carried out by a neurologist using standardized methods, an examination by an endocrinologist with laboratory control of hormone levels, an examination of a hygienist with a toxicological examination depending on the clinical picture and anamnesis data. The level of hormones was determined by the enzyme-linked immunosorbent assay on a complete enzyme-linked immunosorbent assay machine company "COBAS-CORE" according to the instructions offered by manufacturers of test systems ("DSL, Inc.", USA and Alkor-Bio, St. Petersburg).

It was found that the norm range does not depend on the age, gender or sport that the subject is engaged in. First of all, the level of indicators is affected by the athlete's level of fitness, the presence or absence of injuries or diseases, as well as the adequacy of the training load to the current functional state.

Standards for the data of the work are shown in tables 1 and 2.

Table 1 HRV indicators reflecting the state of regulation Parameter Values Area The values of the spectral parameters of HRV Norma, good physical condition, first group TP = 5932 ± 1570 ms ² / Hz LF / HF = 0.7-2.0 Reduced adaptive capacity Second group TP = 2473 ± 1078 ms ² / Hz LF / HF = 3.1-4.0 Third group

1000 мс²/Гц LF/HF≥4,1TP

1000 ms ² / Hz LF / HF≥4.1 Fourth group TP

M1360 ms ² / Hz LF / HF≥4.1

table 2 Range ranges,% of total spectrum power (TP) Organ (functional) specificity of the interval Spectrum Interval Frequency Response Norma, good physical condition, first group Reduced adaptive capacity Second group Third group Fourth group one 2 3 four 5 6 suprasegmental level of ANS 0.003-0.004 9.27 ± 0.5 4.85 ± 0.5 1.85 ± 0.1 2.75 ± 0.2 hypothalamus 0.0062-0.0072 10.12 ± 0.6 4.83 ± 0.6 6.83 ± 0.6 15.6 ± 0.75 pituitary 0.010-0.014 9.48 ± 0.7 11.28 ± 0.7 2.28 ± 0.28 3.75 ± 0.37 thyroid 0.0163-0.0173 3.63 ± 0.3 2.6 ± 0.3 3.26 ± 0.26 5.41 ± 0.25 sympatho-adrenal system 0,023-0,029 4.95 ± 0.8 1.85 ± 0.1 1.65 ± 0.1 2.75 ± 0.3 steroid hormones 0.031-0.035 2.03 ± 0.4 4.53 ± 0.4 1.01 ± 0.1 1.23 ± 0.1 aortic arch baroreceptors 0,039-0,041 0.69 ± 0.1 0.3 ± 0.05 0.46 ± 0.05 2.73 ± 0.21

Methods of treating three types of reduction in adaptive capacity are as follows.

Treatment of the first type of reduction in adaptive capacity

For the therapeutic effect, the following EHF-therapy scheme was used with exposure to emitter No. 4 with a radiation frequency of 38-78 GHz (the SEM TESN EHF-IR therapy device is portable with replaceable emitters, version BF. Registration certificate FS 022a 0879 / 3262-06. Certificate Compliance ROSS RU.AYA79.V04377). The low-frequency modulation of the EHF radiation is 1.75 ± 0.1 Hz for 4 minutes, then 6.4 ± 0.13 Hz for 5 minutes, then 10.00 ± 0.33 Hz for 6 minutes. The emitter is fixed to biologically active points in the following order: E 36 on the right and Gi 4 on the left in the first procedure, E 36 on the left and Gi 4 on the right in the second procedure, F8 on the right and VG 14 in the third procedure, F8 on the left and VG 14 in the fourth procedure, VB34 on the right and Rp 9 on the left for the fifth procedure, VB 34 on the left and Rp 9 on the right for the sixth procedure. The exposure duration at all points is 15 minutes, the number of procedures per treatment course is six. The designation of biologically active points of traditional Chinese medicine is given according to the French classification.

Treatment of the second type of reduction in adaptive capacity

For the therapeutic effect, the following EHF-therapy scheme was used with exposure to emitter No. 4 with a radiation frequency of 38-78 GHz (the SEM TESN EHF-IR therapy device is portable with replaceable emitters, version BF. Registration certificate FS 022a 0879 / 3262-06. Certificate Compliance ROSS RU.AЯ79.B04377). EHF low-frequency modulation of 4.0 ± 0.14 Hz for 5 minutes, then 9.4 ± 0.33 Hz for 5 minutes. The emitter is fixed to biologically active points in the following order: the first procedure is E 36 on the right, Gi 11 on the left; the second procedure - E36 on the left, Gi 11 on the right; the third procedure is F2 on the right, VG14; the fourth procedure is F2 on the left, VG 14; fifth procedure - VB34 on the right, MC6 on the left; the sixth procedure - VB 34 on the left, MC6 on the right, the seventh procedure - V60 on the right, Rp6 on the left; the eighth procedure - V 60 on the left, Rp 6 on the right; the ninth procedure - VG 14, Gi 4 on the left; the tenth procedure is Gi 4 on the right, VG 14. The exposure time at all points is 10 minutes, the number of procedures per treatment course is ten. The designation of biologically active points of traditional Chinese medicine is given according to the French classification.

Treatment of the third type of reduction in adaptive capacity

For the therapeutic effect, the following EHF-therapy scheme was used with exposure to emitter No. 4 with a radiation frequency of 38-78 GHz (the SEM TESN EHF-IR therapy device is portable with replaceable emitters, version BF. Registration certificate FS 022a 0879 / 3262-06. Certificate Compliance ROSS RU.AYA79.V04377). Low-frequency modulation of EHF radiation of 4.6 ± 0.14 Hz for 4 minutes, then 9.6 ± 0.13 Hz for 6 minutes. The emitter is fixed to biologically active points in the following order: the first procedure is E 36 on the right, Gi 11 on the left; the second procedure is E 36 on the left, Gi 11 on the right; the third procedure is F 2 on the right, VG 14; the fourth procedure is F2 on the left, VG 14; fifth procedure - VB 34 on the right, MS 6 on the left; the sixth procedure - VB 34 on the left, MS 6 on the right. The exposure duration at all points is 10 minutes, the number of procedures per treatment course is six. The designation of biologically active points of traditional Chinese medicine is given according to the French classification.

The results of monitoring the progress of treatment are presented in table.3.

Table 3 The dynamics of treatment of three types of reduction in adaptive capacity Macro cycle periods Reduced adaptive capacity Normal, good physical condition First view Second view Third view one 2 3 four 5 Start treatment 9.7% (n = 8) 25.6% (n = 21) 26.7% (n = 22) 38% (n = 31) The middle of the treatment period 7.3% (n = 6) 26.8% (n = 22) 15.9% (n = 13) 50% (n = 41) The end of the treatment period 2.5% (n = 2) 3.7% (n = 3) 2.5% (n = 2) 91.3% (n = 75)

When analyzing the data given in table 3, it can be determined that in most cases (about 91%) the treatment process has a positive effect on the state of the systems responsible for adapting the body to physical activity: the proportion of people who are normal increases from 38% to beginning of treatment up to 91.3% at the end of treatment. In 8.7% of patients, treatment was ineffective; their condition did not change.

People with reduced adaptive capabilities are the main risk group for the development of stress and failure systems involved in adaptation to physical activity. Rational treatment planning, taking into account changes in the functional state, will reduce the number of people on whom physical exertion has a negative effect, leading to the development of diseases, injuries and the loss of specific disability.

Example 1. Athlete B., 18 years old. Kind of sport - swimming in flippers. Master of sports of international class. The physical condition is normal, no complaints. Does not need treatment. 8 days after the survey, a world record was set.

Parameter Actual Values Group Weight coefficient Total Spectrum Power (TP) and LF / HF 7501 ms ² / Hz and LF / HF 1.62 First 0 The state of the supra-segmental level of the ANS (0.003-0.004 Hz) 8.84 First 0 The state of the hypothalamus (0.0062-0.0072 Hz) 10.32 First 0 The state of the pituitary gland (0.010-0.014 Hz) 10.15 First 0 Thyroid condition (0.0163-0.0173 Hz) 3.9 First 0 Sympatho-adrenal system status (0.023-0.029 Hz) 4.1 First 0 The state of the steroid hormone system (0.031-0.035 Hz) 2.41 First 0 The state of the aortic arch baroreceptors (0.039-0.041 Hz) 0.7 First 0 Total 0

Example 2. Athlete A., 32 years old. Kind of sport - swimming in flippers. Honored Master of Sports. Normal physical performance, no complaints. Does not need treatment. Participated in the World Championship, in the relay - set a World record, I place.

Parameter Actual Values Group Weight coefficient Total Spectrum Power (TP) and LF / HF 5127 ms ² / Hz and LF / HF 0.83 First 0 The state of the supra-segmental level of the ANS (0.003-0.004 Hz) 9.15 First 0 The state of the hypothalamus (0.0062-0.0072 Hz) 10.13 First 0 The state of the pituitary gland (0.010-0.014 Hz) 11.50 Second +1 Thyroid condition
(0.0163-0.0173 Hz) 3.75 First 0 Sympatho-adrenal system status (0.023-0.029 Hz) 1.83 Second +1 The state of the steroid hormone system (0.031-0.035 Hz) 1.9 First 0 condition
aortic arch baroreceptors (0.039-0.041 Hz) 0.52 Third +2 Total +4

Example 3. Athlete G., 21 years old. The sport is athletics. Master of Sport. Complaints of fatigue, sleep disturbance, inability to fulfill the training load in full, lack of progress in sports performance. Reduced physical performance of the first type, a specific treatment. After treatment, performance was restored, a personal record was improved.

Parameter Actual Values Group Weight coefficient before treatment after treatment before treatment after treatment before treatment after treatment Total Spectrum Power (TP) and LF / HF 2675 ms ² / Hz and LF / HF 3.72 3245 ms ² / Hz and LF / HF 3.23 Second Second +1 +1 The state of the supra-segmental level of the ANS (0.003-0.004 Hz) 2.83 4.32 Fourth Second +3 +1 The state of the hypothalamus (0.0062-0.0072 Hz) 4.24 5.36 Second Second +1 +1 The state of the pituitary gland (0.010-0.014 Hz) 11.06 11.48 Second Second +1 +1 Thyroid condition (0.0163-0.0173 Hz) 3.81 3.63 First First 0 0 Sympatho-adrenal system status (0.023-0.029 Hz) 2.48 4.27 Fourth First +3 0 The state of the steroid hormone system (0.031-0.035 Hz) 4.63 2,39 Second First +1 0 The state of the aortic arch baroreceptors (0.039-0.041 Hz) 0.48 0.75 Third First +2 0 Total +12 +4

Example 4. Athlete Gr., 17 years old. Kind of sport - swimming in flippers. Master of Sport. Complaints of a feeling of slight fatigue without changing the nature and quality of night sleep, loss of appetite without noticeable weight loss, low heart rate at rest, hypotension (blood pressure below normal) at a normal metabolic rate (metabolism) and normal body temperature.

Reduced physical performance of the second type. A specific treatment was carried out, after which he felt better, he had the opportunity to fully train, after 2 months he was repeated, and then his personal record was improved.

Parameter Actual Values Group Weight coefficient before treatment after treatment before treatment after treatment before treatment after treatment Total Spectrum Power (TP) and LF / HF 783 ms ² / Hz and LF / HF 12.76 1762 ms ² / Hz and LF / HF 3.56 Third Second +2 +1 The state of the supra-segmental level of the ANS (0.003-0.004 Hz) 2.64 4.96 Fourth Second +3 +1 The state of the hypothalamus (0.0062-0.0072 Hz) 14.92 5.31 Fourth Second +3 +1 The state of the pituitary gland (0.010-0.014 Hz) 2.28 10.14 Third First +2 0 Thyroid condition (0.0163-0.0173 Hz) 3.24 3,58 Third First +2 0 Sympatho-adrenal system status (0.023-0.029 Hz) 1.79 4.2 Second First +1 0 The state of the steroid hormone system (0.031-0.035 Hz) 4.26 4.68 Second Second +1 +1 The state of the aortic arch baroreceptors (0.039-0.041 Hz) 2.85 0.65 Fourth First +3 0 Total +17 +4

Example 5. Athlete P., 17 years old. The sport is Greco-Roman wrestling. Master of Sport. Complaints of mild fatigue, increased need for sleep, decreased appetite (anorexia), sudden unplanned weight loss, increased heart rate at rest, headaches, normal or slightly elevated body temperature, increased blood pressure (hypertension); morning blood pressure increases by about 15% or more, an increase in reaction time, a marked deterioration in the ability to perform complex movements.

Reduced physical performance of the third type. A specific treatment was carried out, after which he felt better, an opportunity to fully train, weight was restored, qualifying competitions in the national team of the Federal District successfully passed.

Parameter Actual Values Group Weight coefficient before treatment after treatment before treatment after treatment before treatment after treatment Total Spectrum Power (TP) and LF / HF 15783 ms ² / Hz and LF / HF 8.76 5137 ms ² / Hz and LF / HF 1.95 Fourth First +3 0 The state of the supra-segmental level of the ANS (0.003-0.004 Hz) 2.85 8.80 Fourth First +3 0 The state of the hypothalamus (0.0062-0.0072 Hz) 16.1 5.20 Fourth Second +3 +1 The state of the pituitary gland (0.010-0.014 Hz) 3.92 10.11 Fourth First +3 0 Thyroid condition (0.0163-0.0173 Hz) 5.41 3.4 Fourth First +3 0 Sympatho-adrenal system status (0.023-0.029 Hz) 2.75 1.93 Fourth Second +3 +1 The state of the steroid hormone system (0.031-0.035 Hz) 1.23 4.68 Fourth Second +3 +1 The state of the aortic arch baroreceptors (0.039-0.041 Hz) 2.73 0.34 Fourth Second +3 +1 Total +24 +4

Conclusion

1. The data obtained as a result of the work carried out allow us to conclude about the unity of the mechanisms governing the adaptation of people to physical activity, and the absence of dependence of HRV indicators on the type of activity, gender, age

2. In people who are in good physical shape, there is a balance in all regulatory systems, which persists even after intense physical activity, providing economization of body functions and quick recovery after exercise.

3. The study of heart rate variability allows timely rehabilitation measures aimed at prolonging active physical activity, to reduce losses caused by temporary or permanent loss of working capacity.

4. The timely selection of people whose adaptation systems are in a state of stress, disruption or decompensation, and the implementation of therapeutic and preventive measures will prevent the development of acute and chronic physical overstrain, as well as injuries.

Therefore, changes in HRV can serve as a universal criterion for the timely diagnosis of stress conditions of autonomic regulation, individual correction of the plan of physical activity and predicting their result.

Claims (7)

1. A method for assessing the adaptive capabilities of the human body to physical activity, including recording the spectrum of the dynamic range of cardio intervals, measuring power in the ranges of the series and the total power of the spectrum (TP), determining standard values of the total spectral power and power in the ranges of the series, averaged over a large number of studies standard recording conditions, while the power is measured in the ranges of 0.003-0.004 Hz, 0.0062-0.0072 Hz, 0.010-0.014 Hz, 0.0163-0.0173 Hz, 0.023-0.029 Hz, 0.031-0.035 Hz, 0.039- 0,041 Hz, then determine the indicator S _i - the ratio power for each of the above ranges to the total spectrum power (TP),%, and as standard values of the range 0.003-0.004 Hz use the indicator S _i = 9.27 ± 0.5%; the range of 0.0062-0.0072 Hz indicator S _i = 10,12 ± 0,6%; the range of 0.010-0.014 Hz indicator S _i = 9.48 ± 0.7%; the range of 0.0163-0.0173 Hz indicator S _i = 3.63 ± 0.3%; range 0.023-0.029 Hz indicator S _i = 4.95 ± 0.8%; range 0.031-0.035 Hz indicator S _i = 2.03 ± 0.4%; range 0.039-0.041 Hz indicator S _i = 0.69 ± 0.2%; characterized in that it further determines the power of the spectrum in the frequency range 0.04-0.15 Hz (LF), the power of the spectrum in the frequency range 0.15-0.40 Hz (HF), the ratio of the power of the frequency ranges LF / HF, then each the parameter, depending on its value, is assigned to one of four conditional groups with different functional states, with a total spectrum power (TP) of 5932 ± 1570 ms ² / Hz and an LF / HF ratio of 0.7 to 2.0, the first group is assigned , with a total spectrum power (TP) of 2473 ± 1078 ms ² / Hz and a LF / HF ratio of more than 3.1 to 4.0, the second group is assigned, with a total power the spectrum (TP) is less than 1000 ms ² / Hz and the LF / HF ratio greater than or equal to 4.1 is assigned the third group, with a total spectrum power (TP) greater than 11360 ms ² / Hz and the LF / HF ratio greater than or equal to 4.1 assign a fourth group; in the range of 0.003-0.004 Hz, with a value of 9.27 ± 0.5, the first group is assigned, with a value of 4.85 ± 0.5, a second group is assigned, with a value of 1.85 ± 0.1, a third group is assigned, with a value of 2.75 ± 0.2 assign the fourth group; in the range of 0.0062-0.0072 Hz with a value of 10.12 ± 0.6, the first group is assigned, with a value of 4.83 ± 0.6, the second group is assigned, with a value of 6.83 ± 0.6, the third group is assigned, with a value of 15.6 ± 0.75 is assigned to the fourth group; in the range of 0.010-0.014 Hz, with a value of 9.48 ± 0.7, the first group is assigned, with a value of 11.28 ± 0.7, a second group is assigned, with a value of 2.28 ± 0.28, a third group is assigned, with a value of 3.75 ± 0.37 assign the fourth group; in the range of 0.0163-0.0173 Hz with a value of 3.63 ± 0.3, the first group is assigned, with a value of 2.6 ± 0.3, the second group is assigned, with a value of 3.26 ± 0.26, the third group is assigned, with a value of 5.41 ± 0.25 is assigned to the fourth group; in the range of 0.023-0.029 Hz at a value of 4.95 ± 0.8, the first group is assigned, at a value of 1.85 ± 0.1, a second group is assigned, at a value of 1.65 ± 0.1, a third group is assigned, at a value of 2.75 ± 0.3 assign the fourth group; in the range of 0.031-0.035 Hz, with a value of 2.03 ± 0.4, the first group is assigned, with a value of 4.53 + 0.4, a second group is assigned, with a value of 1.01 ± 0.1, a third group is assigned, with a value of 1.23 ± 0.1 assign the fourth group; in the range of 0.039-0.041 Hz with a value of 0.69 ± 0.1, the first group is assigned, with a value of 0.3 ± 0.05, the second group is assigned, with a value of 0.46 ± 0.05, the third group is assigned, with a value of 2.73 ± 0.21, a fourth group is assigned, and a weight coefficient (k) is assigned to each group, a weight coefficient (k) equal to “0” is assigned to the first group, a weight coefficient (k) equal to “1” is assigned to the second group, a weight coefficient is assigned to the third group ( k) equal to "2", the fourth group is assigned a weight coefficient (k) equal to "3", with the value of the sum of weight coefficients it is considered normal for patients (k) in the range from “0” to “+4” that a person is in good physical condition - the norm, with a value of the sum of weighting factors (k) in the range from “+5” to “+12”, they believe that a person has reduced functionality of the first type, with a value of the sum of weights (k) ranging from +13 to +19, it is believed that a person has reduced functionality of a second type, with a value of the sum of weights (k) ranging from "+20" to "+24" believe that a person has reduced functionality of the third kind of. 2. The method of treatment of the first type of reduced functionality according to claim 1, including exposure to EHF radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in a predetermined sequence on biologically active points, characterized in that the effect on biologically active points is carried out on modulated low frequencies 1.75 ± 0.1 Hz, 6.4 ± 0.13 Hz and 10.0 ± 0.33 Hz in the sequence E 36 on the right and G14 on the left in the first procedure, E 36 on the left and Gi4 on the right in the second procedure , F8 on the right and VG 14 in the third procedure, F8 on the left and VG 14 pr and the fourth procedure, VB34 on the right and Rp9 on the left for the fifth procedure, VB34 on the left and Rp9 on the right for the sixth procedure. 3. The method according to claim 2, characterized in that in each procedure, the impact on biologically active points is first carried out at a modulated low frequency of 1.75 ± 0.1 Hz for 4 minutes, at a frequency of 6.4 ± 0.13 for 5 minutes, at a frequency of 10.0 ± 0.33 Hz for 6 minutes, while the exposure time at all points is 15 minutes, and the number of procedures per treatment course is 6. 4. The method of treatment of the second type of reduced functionality according to claim 1, including exposure to EHF radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in the sequence 4.0 ± 0.14 Hz, 9.4 ± 0.33 Hz on biologically active points, characterized in that the impact on biologically active points is carried out at each modulated low frequency in the sequence E 36 on the right and Gi11 on the left in the first procedure, E 36 on the left and Gi11 on the right in the second procedure, F2 on the right and VG 14 in the third procedure, F2 left and VG 14 in the fourth procedure, VB 34 on the right and MC6 on the left in the fifth procedure, VB 34 on the left and MC6 on the right in the sixth procedure, V60 on the right and Rp6 on the left in the seventh procedure, V60 on the left and Rp6 on the right in the eighth procedure, Gi4 on the left and VG 14 in the ninth procedure, Gi4 on the right and VG 14 in the tenth procedure. 5. The method according to claim 4, characterized in that in each procedure, the impact on biologically active points is first carried out at a modulated low frequency of 4.0 ± 0.14 Hz for 5 minutes, then at a frequency of 9.4 ± 0.33 V for 5 minutes, and the number of procedures per treatment course 10. 6. The method of treatment of the third type of reduced functionality according to claim 1, including exposure to EHF radiation in the broadband noise spectrum of 36-78 GHz, modulated by a low frequency in a predetermined sequence on biologically active points, characterized in that the modulation is carried out at low frequencies 4, 6 ± 0.14 Hz and 9.6 ± 0.13 Hz, while the biologically active points are exposed at each modulated low frequency in the sequence E 36 on the right and Gi11 on the left in the first procedure, E 36 on the left and Gi11 on the right in the second procedure , F2 on the right and VG 14 in the third procedure, F2 on the left and VG 14 in the fourth procedure, VB34 on the right and MC 6 on the left in the fifth procedure, VB 34 on the left and MC6 on the right in the sixth procedure. 7. The method according to claim 6, characterized in that in each procedure, the impact on biologically active points is first carried out at a modulated low frequency of 4.6 ± 0.14 Hz for 4 minutes, then at a frequency of 9.6 ± 0.13 V for 6 minutes, and the number of procedures per treatment 6.