RU2316247C2 - Method for ranging people according to the values of functional state of central nervous system - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: the present innovation deals with studying human body state: detecting the values of functional state of central nervous system (CNS) in tested people, principles in functioning of information-analytical cerebral structures and prognostic evaluation for the successfulness of professional activity. One should detect integral value of CNS functional state calculated as an average-weighed value of a rank position in a team detected by criterional parameters. As the criterional parameters mentioned it is necessary to apply the excitability of nervous centers and liability of nervous processes detected by critical frequency of fibrillations fusion in cortical centers of a visual analyzer for right and left cerebral hemispheres separately; the rate of sensory information perception and elaboration of solution upon motor reaction in motor cortex of right and left cerebral hemispheres separately; the degree of inter-hemispheric functional asymmetry of large hemispheres detected by the values of excitability of nervous centers to test-signals of different color; the degree of inter-hemispheric functional asymmetry of large hemispheres detected by the time of visual-motor reactions to light signals given in right and left visual semi-fields and implementation of motor reactions with a hand controlled out of the same cerebral hemisphere where that light test-stimulus is addressed to; the degree of psycho-emotional strain detected as the difference between the values of excitability of nervous centers to test-signals of red and green color; dominating algorithm of functioning in CNS information-analytical structures by inter-hemispheric functional asymmetry of large hemispheres. The innovation enables to increase the significance of integral evaluation of functional CNS readiness to the responsibility-based professional activity under conditions of high psycho-emotional strain.

EFFECT: higher efficiency of ranging.

1 cl, 3 ex, 2 tbl

Description

The invention relates to medicine and relates to studies of the state of the human body, namely: determining indicators of the functional state of the central nervous system (CNS) of the subjects, patterns of functioning of the information-analytical brain structures and prognostic assessment of the success of professional activities.

The need for this invention is due to the fact that the determination of readiness for activity in extreme conditions, for example, in sports competitions associated with the ultimate stress of the functional systems of the body, requires an assessment of the functional state of the central nervous system (CNS) of the examined people, the ability to adapt their body to high physical and psychoemotional stresses on psychophysiological indicators: the excitability of nerve centers, the lability of nervous processes, the dominant algorithm about abotki incoming information and the functional activity of brain structures emotsioreguliruyuschih.

The need to improve the methods of psychophysiological studies of the human body, namely: the features of the functioning of its information-analytical structures (CNS) is also due to the fact that the study of the higher nervous activity of a person, including his preparedness for one or another responsible professional activity, requires a reliable understanding of its functional capabilities for perceiving information, making optimal decisions in difficult situations of choice and timely implementation uw control actions. This work is carried out by information-analytical structures of the brain and is determined by the dominant information processing algorithms in the central nervous system.

There are known requirements for the functional state of the central nervous system of a person, including a professional who is engaged in a particular type of sports activity. A high-class athlete, for example, in game sports, should, as a rule, possess developed speed-power qualities, be able to quickly assess the situation on the playing field, predict changes in the situation in a favorable or unfavorable direction, develop the necessary decisions and take the necessary actions in a timely manner.

If the subject meets the above requirements (the level of this compliance is determined by the team's coaching council, psychologists and physical education specialists), a judgment is made about the sports results expected from him and the decision to include him in the team. As can be seen from the above list of requirements for the athlete’s body, achieving success in a particular sport largely depends on the functional capabilities of the central nervous system.

In assessing the likely success of an athlete, trainers are guided by observation data on the nature of actions on the playing field in training games, data on a subjective assessment of psychoemotional tension and motivational attitudes, results of psychophysiological testing and behavioral reactions. Such an assessment is characterized by pronounced subjectivity and therefore often proves to be insufficiently reliable.

It is especially important to get a reliable assessment of the central nervous system of athletes in preparation for participating in important sports competitions, during which it is required to demonstrate high qualities for perceiving information, self-control in conditions of significant nervous and emotional tension, and retain the ability to clear and timely actions to achieve victory (team sports , martial arts, etc.).

To compile a reliable prognostic assessment of the functional state of the body, the subjects usually determine the level of excitability of the nerve centers and the lability of the nervous processes, the speed of information processing and decision making on the implementation of a certain control action in the motor zone of the cortex of the cerebral hemispheres. Information about these qualities is contained in indicators of the critical frequency of flicker of light flicker (CFSM), the time of sensorimotor reaction (BP), the indicators of interhemispheric functional asymmetry of the brain, reflecting the dominant information processing algorithm in the central nervous system, and the voltage indices of intracerebral regulatory functions in the cerebral cortex - subcortical centers.

Known methods and devices for determining the level of excitability of nerve centers and lability of nervous processes, the speed of perception and processing of information in the central nervous system and interhemispheric functional asymmetry of the brain according to RF patents No. 1311709, No. 1436992, No. 1445694 and No. 1659024 according to MKI: А61В 5/16; A61B 5/16. (Author - N.D. Ovchinnikov).

According to the patent of the Russian Federation No. 1311709, a judgment on interhemispheric functional asymmetry of the brain and, therefore, on the dominance of a particular hemisphere of the brain is made by the researcher in terms of the excitability and lability of the centers of the visual analyzer, determined by the parameters of the critical flicker fusion frequency (CFSM) presented in the lateral visual fields. In this case, test signals from a testing stimulus are addressed to equally innervated areas of the retina associated with the cortical center of one of the cerebral hemispheres. The degree of functional asymmetry of the brain can be determined by the difference in the CFSM indices and a judgment can be made on the dominant mode of functioning of the information-analytical structures of the central nervous system [N.D.Ovchinnikov. Methods of quantitative assessment of interhemispheric functional asymmetry of the brain. J. "Human Physiology", 1997, No. 6].

Known methods and devices for determining the state of a person have a number of disadvantages that limit the possibility of obtaining a comprehensive reliable indicator of the level of functional readiness of the central nervous system of the subject for highly productive activity in the conditions of a nervous-tense atmosphere of a sports competition.

In particular, the well-known methods for determining the preparedness of an athlete for competitive activity have several disadvantages: low informativeness of the data of psychophysiological testing, often based on the results of a subjective assessment of the functional state, and low reliability of the final integral indicator.

The disadvantages of the known methods for determining the degree of functional readiness of the subjects for responsible professional activities are:

- low reliability of the integral indicator of the functional readiness of the central nervous system for responsible professional activities, due to the subjectivity of the used diagnostic methods;

- the inability to predict the expected changes and reactions of various functional systems of the body of the subject being examined with the desired accuracy under conditions of an increased level of neuro-emotional stress;

- insufficient consideration of the level of functional tension of the psycho- and emotional-regulating structures of the central nervous system of the subjects.

As a prototype of the invention, a well-known device for evaluating the interhemispheric functional asymmetry of the central nervous system of a person according to the patent of the Russian Federation No. 1311709 according to MKI: AB 5/16 was chosen. Testing the functional state of the central nervous system of the examined person using the device according to the patent of the Russian Federation No. 1311709 allows you to determine the excitability of the cortical centers of the visual analyzer in each of the cerebral hemispheres and determine the dominant algorithm for the functioning of the information-analytical structures of the central nervous system according to the interhemispheric functional asymmetry [N.D. Methods of quantitative assessment of interhemispheric functional asymmetry of the brain. J. "Human Physiology", 1997, No. 6].

The known method and device for determining the functional state of the central nervous system of the examined persons according to patent No. 1311709, including highly qualified athletes, is characterized by a certain methodological imperfection, in particular, the following disadvantages:

- the inability to accurately predict the expected results of responsible professional activities based on the results of a comprehensive assessment due to the subjectivity of the indicators used;

- the impossibility of making judgments about the importance of indicators of the excitability of nerve centers, the lability of nervous processes and the dominant algorithms for the functioning of the information-analytical structures of the central nervous system to predict the effectiveness of professional activities;

- not taking into account the level of functional tension of the psycho-and emotional-regulating structures of the central nervous system, etc.

The purpose of the invention is to increase the reliability of the obtained integrated assessment of the functional readiness of the central nervous system of the subjects for responsible professional activities in conditions of high psycho-emotional tension (for example, in high-level sports competitions).

Achieving this goal provides an integrated assessment of the functional readiness of the subject for responsible professional activities by taking into account the following data in the integral indicator:

1) indicators of the excitability of neuronal formations and lability of the nervous processes of the cortical end of the visual analyzer of each of the cerebral hemispheres;

2) indicators of the speed of processing sensory information and developing solutions for the implementation of the necessary motor actions in the sensorimotor area of each of the cerebral hemispheres;

3) indicators of the dominance of the functional activity of the right or left hemisphere of the brain, and therefore, one or another algorithm of functioning of the information-analytical structures of the central nervous system; and

4) indicators of the tension of the psycho- and emotional-regulating structures of the central nervous system.

The ability to carry out an integrated assessment of the functional activity of the central nervous system in the examined individuals according to the above indicators is based on a number of serious neurophysiological studies [Bragin NN, Dobrokhotova TA "Sensory asymmetry," - in the book. "Functional asymmetry of man." M .: Medicine, 1981, p. 28-39].

To obtain an integral indicator of the functional state of the central nervous system and the readiness of the subject for professional activities in a high level of psychoemotional tension, it is proposed to determine the following indicators in the subject:

1) indicators of the excitability of neuronal formations and lability of the nervous processes of the cortical end of the visual analyzer of each of the cerebral hemispheres according to the data of the critical frequency of flicker fusion (CSFM);

2) indicators of the speed of processing sensory information and developing solutions for the implementation of the necessary motor actions in the sensorimotor zone of each of the cerebral hemispheres according to the definition of sensory and motor components of sensory motor reactions;

5) indicators of the dominance of the functional activity of the right or left hemisphere of the brain, and therefore, one or another algorithm of functioning of the information-analytical structures of the central nervous system according to the calculated indicators of interhemispheric functional asymmetry of the brain; and

6) indicators of the tension of the psycho- and emotional-regulating structures of the central nervous system according to the difference in the values of CFSM for the activating and relaxing test signals of different colors: red, yellow, green and blue.

Thus, the following indicators were selected as the quantitative criteria for assessing the functional readiness of the subject for responsible professional activities in terms of the state of the information and analytical structures of the central nervous system:

1) the excitability of the cortical centers of the visual analyzer and the lability of the nervous processes of the left hemisphere of the brain in terms of CSFM for red test signals;

2) the excitability of the cortical centers of the visual analyzer and the lability of the nervous processes of the left hemisphere of the brain in terms of CSFM for green test signals;

3) the excitability of the cortical centers of the visual analyzer and the lability of the nervous processes of the right hemisphere of the brain in terms of CSFM for red test signals,

4) the excitability of the cortical centers of the visual analyzer and the lability of the nervous processes of the right hemisphere of the brain in terms of CSFM for green test signals,

5) the time it takes to formulate a decision on the sensorimotor reactions in the left hemisphere of the brain upon presentation of test signals in the right hemisphere of vision and the implementation of motor reactions with the right hand (controlled mainly from the left hemisphere of the brain);

6) the time it takes to formulate a decision on the sensorimotor reactions in the right hemisphere of the brain upon presentation of test signals in the left hemisphere of vision and the implementation of motor reactions with the left hand (controlled mainly from the right hemisphere of the brain);

7) the calculated indicator of interhemispheric functional asymmetry of the brain (FAM) for red (activating) test signals (according to the definition of CFSM), reflecting the level of excitability of the cortical centers of the visual analyzer;

8) a calculated indicator of interhemispheric functional asymmetry of the brain (FAM) for green (relaxing) test signals (according to the definition of CSFM), reflecting the level of excitability of the cortical centers of the visual analyzer and the degree of their interaction with relaxing structures of the brain;

9) a calculated indicator of interhemispheric functional asymmetry of the brain (FAM) according to the speed of sensorimotor reactions in the right and left hemispheres of the brain;

10) a calculated indicator of the ratio of the activity of psycho-and emotional-regulating structures of the left hemisphere of the brain according to the ratio of the activity of activating and relaxing structures according to the calculation of the difference between the excitability indices of the cortical end of the visual analyzer for red and green flickering test signals (according to the definition of CSFM);

11) a calculated indicator of the ratio of the activity of psycho-and emotional-regulating structures of the right hemisphere of the brain according to the ratio of the activity of activating and relaxing structures according to the calculation of the difference between the excitability indices of the cortical end of the visual analyzer for red and green flickering test signals (according to the definition of CSFM);

12) a calculated indicator of the ratio of the activity of psycho-and emotional-regulating brain structures according to the ratio of the activity of activating and relaxing structures according to the calculation of the difference between the maximum excitability indices of the cortical end of the visual analyzer on red for the left hemisphere and green flickering test signals for the right hemisphere of the brain (according to definition of CESF).

The method of ranking people in terms of the functional state of the central nervous system is as follows. In front of the subject there is a remote control for presenting test signals in the form of a number of sources of flickering light-colored test stimuli (for example, inertia-free LEDs of white, red, yellow, green and blue) and buttons for carrying out motor reactions, for example, when the subject feels the moment of subjective fusion of flickering color test stimuli and upon presentation of a test signal in the right or left half-field of vision. The tester unit includes devices for programming the presentation of flickering light-colored test stimuli of different colors to the subject in the right and left half-fields of vision of the subject in a strictly defined mode (with an even increase and decrease in the frequency of presentation and in a certain color sequence) and recording the moment of stimulus frequency that the subject feels like critical. In addition, the tester unit includes a device that provides the test person with random and arrhythmic order test signals in the right and left half-fields of vision and recording the time of sensorimotor reactions with a hand controlled, respectively, from the left and right hemispheres of the brain.

Assessment of the functional state of the central nervous system of the subjects is carried out in 5 stages.

At the first stage, the subject determines the excitability indices of the cortical centers of visual analyzers located in the right and left hemispheres of the brain, according to the measurement of CSFM for test signals of different colors.

At the second stage, the time of sensorimotor reactions is determined upon presentation of test signals in the right or left half-fields of vision and the implementation of motor reactions with a hand controlled mainly from the left or right hemispheres of the brain.

At the third stage, the indicators of the dominant algorithms for the functioning of the information-analytical structures of the central nervous system are determined according to the calculations of the interhemispheric functional asymmetry of the brain based on measurements of the CSFM and the time of sensorimotor reactions.

At the fourth stage, the degree of functional tension of the psycho- and emotional-regulating mechanisms of the information-analytical structures of the central nervous system, examined according to the calculations of the difference between the sensory activity indicators of the activating and relaxing (for example, red and green or blue) test signals addressed to the right or left hemisphere, is determined .

At the fifth stage, an integral indicator of the functional activity of the central nervous system of the examined person is calculated as the average rank level in the group according to the above criteria by the formula:

Ri = (Rk1 + Rk2 + Rk3 ... + Rkn) / n,

where Ri is the integral rank level in the team,

Rk1, Rk2, Rkn - ranking level by criteria,

n is the number of criteria selected to assess the functional state.

First, the rank of the examinee is determined according to each criterion separately, then the ranks are summarized according to all criteria for each person and the integral rank place is determined by the indicators of the functional state of the central nervous system and, based on an integral assessment, they provide a predictive assessment of the success of the forthcoming activity.

Testing of the known and proposed method for determining the functional state of the central nervous system was carried out in studies involving athletes. The results of the survey of members of the national hockey team, consisting of masters of sports and international masters of sports in hockey (August 2005) are shown in Table 1.

The proposed method for assessing the functional state of the central nervous system of a person can be used in physiological and psychophysiological studies, in studying the patterns of functioning of information-analytical brain structures in cases of a sharp increase in the intensity of professional activity, in studying the effect of adverse environmental factors on people, etc.

Various research institutions of the Russian Academy of Sciences, RAMS, and the Ministry of Health of the Russian Federation of other departments involved in studying the mechanisms of brain activity, especially the functioning of the central nervous system of people during labor and sports activities, under the influence of adverse factors of the work environment, monotony, and physical inactivity may be interested in using this invention. , to improve the methods of professional selection of people for classes associated with significant psycho-emotional stress, etc.

Individual conclusions during the implementation of a ranking assessment of athletes by the proposed methodology look approximately as follows:

1) Subject Lam-t M .: integral rank in the group - 2:

- indicators of the excitability of the nerve centers of the right and left hemispheres of the brain are the best in the group of examined;

- the speed of information processing in the central nervous system is very high;

- the logical thinking algorithm dominates, perfectly analyzes incoming sensory information;

- Ability to regulate the psycho-emotional state in the process of sports game activity - at the highest level.

Conclusion: the athlete in terms of the ability of the central nervous system to perceive information is in excellent athletic form, is able to navigate perfectly in difficult game situations and, according to a number of indirect subtle signs, make the right decision and carry out the necessary motor reactions.

2) Test Bul-in A.: integral rank in the group - 12:

- indicators of the excitability of the nerve centers of the right and left hemispheres of the brain are slightly better than the average group;

- information processing speed in the central nervous system - at the level of average indicators;

- the holistic thinking algorithm dominates in game situations, i.e. able to navigate well with difficult situations;

- Ability to regulate the psychoemotional state in the process of sports gaming activity - at a good level.

Conclusion: the athlete in terms of the ability of the central nervous system (at the time of the survey) to perceive information is in good shape, is able to navigate well in difficult game situations and, according to a number of indirect subtle signs, make the right decision and carry out the necessary motor reactions.

3) Subject Bird-in S.: integral rank in the group - 19:

- indicators of the excitability of the nerve centers of the right and left hemispheres of the brain below the group average;

- information processing speed in the central nervous system - at the level of average indicators;

- the logical thinking algorithm dominates;

- Ability to regulate the psychoemotional state in the process of sports gaming activity - at a good level.

Conclusion: the athlete in terms of the ability of the central nervous system (at the time of the survey) to perceive information is in a satisfactory form, able to navigate well in difficult game situations and make the right decision and carry out the necessary motor reactions for a number of indirect subtle signs.

The data of a comparative analysis of the proposed and selected as a prototype methods for testing the functional state of a person are given in table 2.

Literature

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2. Alpatskaya E., Boriserkov M., Guba D., Chernova V. Choice of effective testing technologies as the basis of youth sports. Mat. conf. "Youth Sports of the 21st Century". M .: Soviet Sport, 2002.

3. Glezer V.D. Ch. 9.3. "Visual cortex" in the book: "Private physiology of the nervous system." L .: Nauka, 1983, p. 523-558.

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6. Kostandov E.A. Functional asymmetry of the cerebral hemispheres and unconscious perception. M .: Nauka, 1983 .-- p. 170.

7. Kratin Yu.G., Zubkova N.A., Lavrov V.V. and others. The chapter "Static and dynamic signal analysis systems, the filtration principle // Visual pathways and the activation system of the brain. L .: Nauka, 1982. - p.156.

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9. Ovchinnikov N.D. A device for determining interhemispheric functional asymmetry of the brain according to patents of the Russian Federation No. 1311709, No. 1436992 and No. 1445694 according to MKI: A 61 B 3/06; A 61 B 5/16.

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Claims (2)

1. The method of ranking people according to the functional state of the central nervous system, which consists in making judgments about the state of information and analytical functions according to the definition of psychophysiological indicators, characterized in that the assessment is made according to the calculated integral indicator of the functional state of the central nervous system, determined by testing with different light stimuli colors and according to the determination of the time of sensorimotor reactions, calculated as the weighted average of the occupied in a team ranking position, determined by criteria: excitability of nerve centers and lability of nervous processes, determined by the critical frequency of flicker fusion in the cortical centers of the visual analyzer for the right and left hemispheres of the brain separately; the speed of perception of sensory information and the development of decisions on motor reactions in the motor cortex of the right and left hemispheres of the brain separately; the dominant algorithms for the functioning of the information-analytical structures of the central nervous system according to interhemispheric functional asymmetry of the cerebral hemispheres, determined by indicators of the excitability of nerve centers for test signals of different colors; degrees of interhemispheric functional asymmetry of the cerebral hemispheres, determined by the time of visual-motor reactions to light signals presented in the right and left half-fields of vision and the implementation of motor reactions by a hand controlled from the same hemisphere of the brain into which the light test stimulus is addressed; the degree of psychoemotional tension, defined as the difference between the indices of the excitability of the nerve centers on the test signals of red and green; moreover, the subject, occupying a higher place according to the above criteria, in the implementation of prognostic assessment is regarded as the most promising and able to show high results in the upcoming professional activity. 2. The method for determining the functional state of the central nervous system according to claim 1, characterized in that the determination of the excitability of the nerve centers by the critical frequency of flicker of light flickers is carried out upon presentation of test signals in the right half-fields of vision with the addressing of the test signals of different colors first in the left hemisphere , then - upon presentation of test signals in the left half-fields of vision with addressing of the signal for the right hemisphere of the brain; and the presentation of test stimuli for determining the time of sensorimotor reactions is carried out in the right and left half-fields of vision in random and arrhythmic order.